__________________________________
                                 :
SECRETARY OF LABOR,              :
                                 :
        Complainant,             :
             v.                  :       DOCKET NO. 96-1405
                                 :
BRANDENBURG INDUSTRIAL           :
SERVICES COMPANY,                :
                                 :
        Respondent.              :
_________________________________:


Appearances:  For Complainant: Richard T. Buchanan, Esq.,
Office of the Solicitor, U. S. Department of Labor, Philadelphia,
PA.; For Respondent: Oldrich Foucek, III, Esq., Tallman, Hudders &
Sorrentino, Allentown, PA.

 



Before:  Judge Covette Rooney

*DECISION AND ORDER*

This proceeding is before the Occupational Safety and Health Review
Commission pursuant to Section 10(c) the Occupational Safety and Health
Act of 1979 (29 U.S.C. §651, /et seq./)("the Act"). Respondent,
Brandenburg Industrial Services Company, at all times relevant to this
action maintained at a worksite at the Bethlehem Steel Corporation plant
located at 1905 East Fourth Street, Bethlehem, PA., where it was engaged
in demolition work. Respondent admits that it is an employer engaged in
a business affecting commerce withing the meaning of Section 3(5) of the
Act, 29 U.S.C. §652(a). Accordingly, Respondent is subject to the
requirements of the Act.

From July 2, 1996 to August 23, 1996, Compliance Safety and Health
Officer ("CO") Mark Stelmack conducted an inspection of the
aforementioned worksite. Respondent was involved in the demolition of
portions of the Bethlehem Steel Plant (Tr. 11)[1]. As a result of this
inspection, on September 6, 1996, Respondent was issued one citation
alleging three serious violations with a proposed total penalty in the
amount of $4,225.00. By timely Notice of Contest Respondent brought this
proceeding before the Review Commission. A hearing was held before the
undersigned on September 9-11, 1997. Counsel for the parties have
submitted Post-Hearing Briefs and Reply Briefs, and this matter is ready
for disposition.

*SECRETARY'S BURDEN OF PROOF*

The Secretary has the burden of proving his case by a preponderance of
the evidence.

    In order to establish a violation of an occupational safety or
    health standard, the Secretary has the burden of proving: (a) the
    applicability of the cited standard, (b) the employer's
    noncompliance with the standard's terms, (c) employee access to the
    violative conditions, and (d) the employer's actual or constructive
    knowledge of the violation (the employer either knew or with the
    exercise of reasonable diligence could have known, of the violative
    conditions).

/Atlantic Battery Co./, 16 BNA OSHC 2131, 2138 (No. 90-1747, 1994).

*CITATION 1, ITEM 1*

29 CFR §1926.652(a)(1) Each employee in an excavation shall be protected
from cave-ins by an adequate protective system designed in accordance
with paragraph (b) or (c)[2] of this section except when:

(I) Excavations are made entirely in stable rock; or

(ii) Excavations are less than 5 feet (1.52 m) in depth and examination
of the ground by a competent person provides no indication of a
potential cave-in.

    *a) BETHLEHEM STEEL SITE: EAST OF SAUCON ROLL SHOP - EMPLOYEES WERE
    EXPOSED TO A CAVE-IN HAZARD WHILE WORKING IN AN EXCAVATION
    APPROXIMATELY EIGHT FEET DEEP FOR THE PURPOSE OF CUTTING AND CAPPING
    AN EXISTING WATER LINE. THE SLOPE OF THE EXCAVATION WALLS DID NOT
    MEET THE REQUIREMENTS OUTLINED IN APPENDIX B OF SUBPART P.*

The cited excavation was a man-made trench which had been formed by
earth removal. 29 U.S.C. §1926.650 (a) and (b). Section 1926.652(a)(1)
requires the use of a protective system for excavations 5 feet or more
in depth, and permits several alternatives to designing and installing
various systems, described in §1926.652(b)[sloping and benching systems]
and (c)[ support systems, shield systems, and other protective systems].
The record contains unrebutted evidence that the cited trench was more
than 5 feet in depth (Tr. 17, 135, 437). Thus, the undersigned finds
that the cited standard is applicable.

When an employer elects to protect employees by sloping several options
are available.[3] Section 1916. 652(b)(1), /Option 1/ requires the
sloping of the sides of a trench at an angle not steeper than 1 Ť
horizontal to 1 vertical (34 degrees measured from the horizontal),
unless the employer uses another option described in the standards.
Section 1926.652(b)(2) permits sloping or benching in accordance with
Appendices A and B in Subpart P.[4] When the employer elects to use
sloping /Option 2/, soil classification per the requirements of Appendix
A, is mandatory. Appendix B contains the specifications for sloping and
benching where an employer designs a protective system under
§1926.652(b)(2).

It is Complainant's position that Respondent violated the cited standard
because there was no protective system in the excavation made on July 2,
1996 that complied with the requirements of §1926.652 (b) or (c), and
there were employees in the excavation (Tr. 17). CO Stelmack testified
that on July 2, 1996, he came across an excavation site just outside the
roll shop as he headed toward the soaking pits (Tr. 14-15,116; Exh. 2).
He observed a ladder on the west side of the trench which had saw at the
bottom of it. There was a shovel leaning against a 30-inch water pipe
which ran across the trench in an east-west direction (Tr. 22-23). He
also observed two employees in the excavation. One employee was standing
on the south side of the pipe, toward the east face of the excavation
(Tr. 26-27). The other employee was located on the opposite side , i.e.,
the north side of the 30- inch pipe toward the east face of the
excavation (Tr. 27-28). He learned that the employee on the south side
of the pipe was Tom O'Donnell, the foreman of the project (Tr. 15). The
employees exited the trench via the ladder. Mr. O'Donnell explained to
him that the trench was being dug for purposes of cutting and capping a
30-inch iron water pipe which ran an east-west direction between the
Saucon Roll Shop and the Soaking Pit Building. Mr. O'Donnell informed
him that the depth of the excavation was 8 feet (Tr. 17, 437). Mr. O'
Donnell subsequently testified that he informed CO Stelmack that the
trench was 8 feet at its deepest point (Tr. 437). CO Stelmack asked Mr.
O"Donnell if he had performed any type of testing to determine the soil
type. Mr. O'Donnell informed him that no tests had been done, and that
he determined the trench was "okay" by his visual inspection of the
excavation (Tr.18, 124-125). He also testified that he subsequently
spoke with Mr. O'Donnell in Respondent's conference room a week or two
later, and at that time Mr. O'Donnell informed him that he soil was
either Type A or B (Tr. 129, 527-28).

CO Stelmack testified that the north wall was vertical - no slope was
present. He did not take any measurements on the south side (Tr. 34, 36,
121; Exh. 3). He testified that he took measurements of the trench with
a steel tape while standing on the south face of the excavation (Tr. 28,
122). Although he did not measure the depth of the trench, he determined
the depth to be 8 feet based upon the information Mr. O'Donnell gave him
and his observation of Mr. O'Donnell in the trench - who was as tall as
he, i.e., 6 feet, and the top of the trench was above his head - (Tr.
135). He lined up the toe of the slope - the portion of the excavation
where the bottom ended and the side wall began - and proceeded to put a
mark on the east side. He then marked the top of the slope on the east
face. He measured 2Ť feet between the toe of the slope and the top of
the slope at ground level (Tr. 28- 29). He determined that this 2 Ť feet
(horizontal) to 8 feet (vertical) ratio was present on the north and the
south side of the pipe on the east wall (Tr. 37-38; Exh. 2). He
testified that this slope did not comply with the minimum requirements
for sloping a Type A slope. Type A soil must have a 3/4 to 1 slope
unless the slope will be open for a short-term (a period of time less
than or equal to 24 hours), wherein the slope can be reduced to Ť
horizontal to 1 vertical (Tr. 30). He explained that to achieve the Ť to
1 ratio at an 8-foot depth for short-term Type A soil, the horizontal
measurement would have to be 4 feetThis slope also did not meet the
requirements for Type B soil which required a 1 horizontal to 1 vertical
slope or 45 degree angle. He further explained that if there had been no
determination made with regard to the type of soil in the trench, the
minimum sloping requirement mandated that the soil be assumed to be Type
C, wherein the slope would have to be 1Ť horizontal to 1 vertical (Tr.
30-31). For Type C soil with an 8-foot deep excavation the horizontal
measurement would have to be 12 feet horizontal - a ratio of 1 Ť to 1
(Tr. 33).

He also took measurements of the west wall of the trench (Tr. 34). He
determined that the measurements of the west wall, south of the pipe,
were 5 feet horizontal to 8 feet vertical (Tr. 31- 32). He determined
that this complied with the minimum sloping requirements for Type A soil
for a short term-excavation. However, this slope did not otherwise
comply with the minimum requirements for sloping for Type A or Type B
soil (Tr. 32).

He testified that the west wall, north of the pipe contained two
existing pipe lines - a branch of the east-west pipeline running north
as it came together in a T, and a smaller pipe. The soil below the pipe
lines was not sloped (Tr. 35- 36). The ladder was against the west wall,
north of the 30-inch pipe (Tr. 36; Exh.3). He learned from Mr. O'Donnell
that there were concrete footers ( base structure for a foundation to a
building which supported the weight of the previously existing building)
along the east face of the excavation, both north and south of the 30-
inch pipe as well as perpendicular to the east face. Mr. O'Donnell
informed him that the footers had a depth of 3 feet from the surface to
the top of the footer, and the footer extended approximately 2 feet in
height (Tr. 39). CO Stelmack testified that he did not consider these
footers to be a protective system because these footers had been
previously designed to support a structure, with forces acting downward
on the footers. The footers had not been designed nor engineered to
support the lateral forces of the soil in the excavation, and they had
not been designed or constructed by Respondent (Tr. 40). This fact was
also acknowledged by Respondent's witnesses. Andrew Dabrowski,
Environmental Health and Safety Manager for Respondent testified that
these footers has not been designed by any engineer of Respondent for
the purpose of shoring this trench or withstanding any amount of
pressure in the trench (Tr. 298). Although he believed that water line
served to some extent as a protective system for the trench, he
acknowledged that the water pipe had not been installed by Respondent
nor had it been designed to be a shoring system for the trench (Tr. 301).

CO Stelmack testified that he determined that the soil in the area of
the pipes and footers could not be considered Type A soil because the
soil had been previously disturbed - the soil had to have been excavated
to install those structures (Tr. 40, 129). The standard states that
previously disturbed soil cannot be classified as Type A. He determined
that the soil in the trench was Type B based upon the fact that the soil
around the water pipe and footer had been previously disturbed as a
result of their installation (Tr. 129; Subpt. P, App. A). James Arendas,
a witness for Respondent agreed that the soil around the pipe and the
footer was previously disturbed because it had to have been excavated.
However, it was his belief that all of the soil in the trench was not
previously disturbed soil because the trench went beyond the previously
disturbed soil (Tr. 375).

The undersigned notes that Review Commission precedent has established
that a trench wall composed of materials of differing strengths is only
as stable as its weakest component. /Woolston Construction Co./, 15, BNA
OSHC 114, 117 (No. 88-1877, 1991), citing CCI Inc., 9 BNA OSHC 1169,
1173 (No. 76-1228, 1980), /aff'd./ 688 F.2d 88 [10 BNA OSHC 1718] (10th
Cir. 1982). The video and photographs admitted into evidence by the
parties reveal that the footers and concrete walls as well as the area
surrounding the water lines were a significant portion of the trench.
Accordingly, the undersigned finds that a preponderance of evidence that
the trench walls containing the footers and the pipes contained soil
which had been previously disturbed. Thus, the trench could not have
consisted of solely Type A soil. The undersigned also notes that CO
Stelmack testified that the trench walls contained rock fragments which
also supported his finding that the trench soil was not Type A (Tr.
532).[5]

The undersigned finds that when an option at §1926.652(b) requires the
conditions and requirements of an appendix, that the appendix then
becomes mandatory. The undersigned finds that the term"shall", as set
forth in /Option (2)/, make the requirements and provisions of the
appendix mandatory.[6] Accordingly, the soil classification system is
mandatory when an employer chooses /Option (2)/[as well as /Option
1(ii)/]. Appendix A (c) contains the requirements for making soil
classifications and sets forth that the classifications "shall be made
based on the results of at least one visual and at least one manual
analysis". Appendix B contains various maximum angles expressed in
degrees for slopes. These angles are dependent upon the soil
classification of the trench. Thus, to utilize the slope measurements
found at Appendix B, a soil classification is mandatory. The undersigned
finds that in order to determine whether or not a prima facie case of
the cited standard can be established, the record must be examined to
determine whether the procedures set forth in Appendix A were followed.
The failure to follow this mandatory requirement prohibits Respondent
from availing itself of /Option 2/ , and thus, Respondent would have
been required to slope the walls of the trench at an angle not steeper
than 1 Ť horizontal to 1 vertical or 12 feet horizontal to 8 feet
vertical in this instance. An evaluation of the credibility of the
witnesses is critical in resolving this issue. CO Stelmack testified
that on July 2, Mr. O'Donnell informed him that he had performed no
tests on had been done to determine the soil classification, and that he
had done a visual inspection of the excavation (Tr. 18). This statement
is corroborated by the fact that his handwritten notes reflect that Mr.
O'Donnell said "no testing done prior to entry, performing only visual
observation" (Tr. 125).[7] Approximately a week or two later, Mr.
O'Donnell told him that he had determined that the soil was either Type
A or Type B(Tr. 129).

However, Mr. O'Donnell testified that when he went into the trench he
performed a thumb penetration test and found the soil to be firm (Tr.
427). This thumb penetration test was done on the east wall. He
considered the wall on the other walls to be the same (Tr. 473). He
determined that the soil was Type A and did not need much sloping
because the trench was going to be open less than 24 hours (Tr. 429). He
testified that he determined that the soil on top of the concrete and
the soil directly beside the pipe for approximately 4 inches had been
previously disturbed for installation purposes (Tr. 459). He testified
that he grabbed a handful of it and squeezed it to feel how it
compressed and found the it stuck together when he rolled it into a ball
and a pen size string (Tr. 426). He also determined that the soil was
Type A - clay - because there were no visible voids in the soil or
fissures.

Respondent attempted to explain the inconsistencies in the statements
which Mr. O'Donnell's gave CO Stelmack on July 2, and his testimony. Mr.
O'Donnell testified that he informed CO Stelmack that he had not tested
the soil because it was his impression that CO Stelmack was asking him
whether he had "scientifically tested it". He stated that he did not
tell him about the visual test and thumb test which he had performed
because he did not think that he was being asked about those tests (Tr.
438-439).

In evaluating the credibility of the testimony of CO Stelmack and Mr.
O'Donnell the undersigned has considered a number of factors. The
undersigned finds Mr. O'Donnell's explanation concerning what he
believed was a "scientific" inquiry, skeptical and incredible. Mr.
O'Donnell testified that on July 2, CO Stelmack did not ask him if he
had determined what type of soil he was digging in or at what angle he
was sloping the trench. He testified that it was not until a couple of
days later that CO Stelmack asked him if he had tested the soil, to
which he replied "no" (Tr. 438). CO Stelmack testified that this
question was asked at the trench on July 2 - a statement supported by
his notes (Tr. 18, 124). The undersigned notes that Mr. Dabrowski
testified that one of the first topics he discussed with Mr. O'Donnell
upon his arrival at the trench was the soil type, because he had a
concern with the angles of the walls (Tr. 242-246). Mr. Dabrowski
testified that when he arrived, he noticed CO Stelmack at the trench and
that was part of his concern. The trench was immediately reconfigured.
The undersigned finds it difficult to give credence to the fact that Mr.
O'Donnell had discussed his findings concerning the soil type with Mr.
Dabrowski and not with the OSHA inspector who in the process of
examining the trench.

Additionally, in response to his attorney's questions at trial, Mr.
O'Donnell unequivocally, set forth in detail the field tests he
routinely conducted at trench sites. This response was based upon his
training, experience, and familiarity with specific governmental
regulations regarding trenches (Tr. 405-409). However, when CO Stelmack
asked him what tests he performed he did not convey this information
(Tr. 469-70). He testified that he believed that CO Stelmack was
questioning about "scientific testing". He acknowledged however, that CO
Stelmack did not ask him about "scientific testing", he asked him if he
had "checked it" (Tr, 468-68). An examination of the record reveals that
there was nothing brought up in that conversation, per his testimony,
which the undersigned finds would have lead him to believe that CO
Stelmack was questioning him about a scientific lab test. Because of his
admitted familiarity with the acceptable field tests and the routine
nature of his performance of these test, it would have been logical for
him to have at least mentioned the results of these tests, especially
since he had informed Mr. Dabrowski of his determination. His neglect in
describing his manual field tests is illogical. Additionally, the
undersigned finds that Mr. O'Donnell's subsequent statement, regarding
the soil type as Type A or Type B - which was recorded in CO Stelmack's
notes - took place after Respondent had taken samples of the soil and
forwarded them to a lab.[8] Thus, this statement was made after the
results of those tests had been made known. Furthermore, the undersigned
finds that Respondent's reliance upon Mr. O'Donnell's findings of the
concrete footer along the east wall is of no consequence to the visual
observations made by Mr. O'Donnell. The record establishes that
Respondent did not design or install them. The record is also void of
any evidence that Respondent tested the adequacy of the footer or the
water pipe with regard to holding back soil and. Additionally, the
record is void of any evidence that Mr. O'Donnell was qualified to
perform such tests.

The undersigned also finds that the CO Stelmack's demeanor on the
witness stand was forthright and his responses were supported by his
notes. Accordingly, his testimony is found to be credible. The
undersigned also finds that the initial inquiry of Mr. O'Donnell
concerning the soil determination took place on July 2, as verified in
CO Stelmack's notes, and not a couple of days later as Mr. O'Donnell
testified (Tr. 438). Again, Mr. O'Donnell's testimony is found to be not
credible with respect to his alleged misinterpretation of the type of
testing CO Stelmack was referring, i.e., scientific testing. The
undersigned also observed, as did counsel for Complainant, that there
was some hesitation exhibited by Mr. O'Donnell in response to questions
posed during cross examination. Mr. O'Donnell explained that this was a
reaction to wanting to tell the truth (Tr. 455). However, the
undersigned observed a distinct variation in his demeanor during cross
examination from direct examination. At best, his testimony appeared to
be tailored to serve the best interest of his employer, the Respondent.

The record establishes that Mr. O'Donnell failed to perform a soil
classification before sloping the subject trench. This requirement is
mandatory before sloping is performed, and his failure to comply with
Appendix A negates his option to slope according to Type A requirements.
His only alternative was to slope in accordance with Type C
requirements. In view of the above, the undersigned finds that the
Secretary has proven a violation of the cited standard. The record also
establishes that in order for an 8 foot trench to have complied with
Type C soil classification, the horizontal distance from the toe of the
slopes at ground level would have to have been at least 12 feet. The
undersigned finds that based upon CO Stelmack's measurements of the east
and west walls, and the vertical nature of the north wall, the trench
did not met this 12 foot requirement.

The undisputed presence of the foreman, Mr. O'Donnell and another
employee in the trench establishes employee exposure. The record also
establishes that Mr. O'Donnell who directed the work at trench was aware
of the configuration of the trench on July 2. The undersigned finds that
Mr. O'Donnell's admitted knowledge of the standards governing trenching
standards as well as his training and experience, establish actual
knowledge of the violative condition. His knowledge is imputed to the
Respondent in view of his supervisory capacity.[9] Accordingly the
Secretary has established a prima facie violation of the cited standard
by a preponderance of evidence.

SERIOUS CLASSIFICATION

Section 17(k) of the Act, 29 U.S.C. §666(k) of the Act, provides that a
violation is "serious" if there is " a substantial probability that
death of serious physical harm could result" from the violation. In
order to establish that a violation should be characterized as serious,
the Secretary need not establish that an accident is likely to occur,
but must show that an accident is possible and it is probable that death
or serious physical harm could occur. /Flintco Inc./, 16 BNA OSHA 1404,
1405 (No 92-1396, 1993).

CO Stelmack testified that the hazard presented was that of a cave-in
from any one of the inadequate trench walls. He classified the violation
as serious because fatal injuries could result from a cave-in (Tr. 41).
The Review Commission has recognized that "[i]f a cave-in occurred in an
8-foot deep trench, it is clear that there is a substantial probability
that the likely result would be death or serious physical harm."
/DiGioia Brothers Excavating Inc./, 17 BNA OSHC 1181, 1183 (No. 92-3024,
1995), citing /Trumid Construction Co./, 14 BNA OSHC 1784, 1789 (No.
86-1139, 1990). The undersigned finds that the serious nature of the
aforementioned citation has been established by the Secretary.

PENALTY

Once a contested case is before the Review Commission, the amount of the
penalty proposed by the Complainant in the Citation and Notification of
Proposed Penalties is merely a proposal. What constitutes an appropriate
penalty is a determination which the Review Commission as the final
arbiter of penalties must make. In determining appropriate penalties
"due consideration" must be give to the four criteria under Section
17(j) of the Act, 29 U.S.C., §666(j). These "penalty factors" are: the
size of the employer's business, the gravity of the violation, the
employer's good faith, and its prior history. /J.A. Jones Construction
Co./, 15 BNA OSHC 2201, 2213-14 (No. 87-2059, 1993). These factors are
not necessarily accorded equal weight. Generally speaking, the gravity
of a violation is the primary element in the penalty assessment.
/Trinity Indus., Inc./, 15 BNA OSHC 1481, 1483 (No. 88- 2691, 1992). The
gravity of a particular violation depends upon such matters as the
number of employees exposed, the duration of the exposure, the
precautions taken against injury, and the likelihood that any injury
would result. /J.A. Jones, supra/.

CO Stelmack testified that the gravity of the violation was high. He
testified that he determined that the severity of the expected injury
was fatal. He determined that the probability of an injury occurring was
lesser because of the amount time that employees been in the trench and
he observed no sloughing or falling off of material from the side walls
of the excavation (Tr. 43). These factors resulted in a$2,500.00
gravity-based penalty. This penalty was adjusted. A 10% reduction was
applied for history because the Respondent had not been cited for any
serious violations in the past 3 years. A 25% reduction was also applied
for good faith in recognition of Respondent's effective health and
safety program on site. No reduction was applied for size because the
record establishes that the Respondent employed approximately 565
employees. The undersigned finds that the record supports the
aforementioned findings, and that the proposed penalty in the amount of
$1,625.00 is appropriate.

*CITATION 1, ITEM 2*

29 CFR §1926.850(I) All floor openings, not used as material drops,
shall be covered over with material substantial enough to support the
weight of any load which may be imposed. Such material shall be properly
secured to prevent its accidental movement.

    *a) SINTER PLANT, MACHINE FLOOR, #4 MACHINE - THE FLOOR OPENING AT
    THE NORTH SIDE OF #4 MACHINE WAS NOT COVERED NOR GUARDED WITH
    PROPERLY INSTALLED STANDARD RAILING. THE OPENING, APPROXIMATELY 62"
    x 33" x 8'5" DEEP WAS PROVIDED WITH A CHAIN RAILING WHERE THE TOP
    RAIL SAGGED TO a HEIGHT OF 30" ABOVE THE FLOOR AND THE MID RAIL WAS
    8" ABOVE THE FLOOR.*

CO Stelmack testified that there was a floor opening on the fourth floor
of the Sinter Plant. On July 24, 1996, he observed two employees walking
side by side by the aisleway adjacent to the floor opening (Tr. 52). The
area had been identified as one where Respondent had been scheduled to
perform demolition, and salvage work, such as pulling copper wire. The
fall distance was 8 feet 5 inches (Tr. 45-46). Respondent does not take
issue with the fact that the cited floor opening was not covered, nor
were the guard rails left by Bethlehem Steel located at the proper
height. Accordingly, the undersigned finds that the applicability of the
standard is not disputed and that the standard was not complied with.
However, Respondent asserts that the existence of this condition was not
violative of the standard because no work was being performed in this
area and no employees were exposed to the potential fall hazard
(Respondent's Post Trial Brief, p. 23).

CO Stelmack testified that he determined that the two employees he
observed were exposed to the hazard of a fall, via the floor opening. He
testified that the aisleway was 10 feet from the edge of the floor to
the wall on the other side of the aisle, per information provided to him
by Mr. Dabrowski (Tr. 145).[10] He determined that the employees were
approximately 2 feet from the wall, and 4 feet from the floor opening
(Tr. 51-52). On cross examination, he was asked to "guess" how far he
was from these individuals when he observed them. He guessed 30 feet
(Tr. 142-43). They were not performing any work when he observed them -
they were "just passing by", i.e., walking (Tr. 143, 148). On July 25,
he spoke with the two employees whom he had observed - Carlos Rojas and
Glenn Miller. They advised him that they had been pulling copper wire to
be salvaged at the Sinter Plant since Monday, July 22 (Tr. 54). His
handwritten notes of that conversation indicate that they had "started
pulling wire on Monday on fourth floor yesterday there were four guys on
the fourth floor." (Tr. 147). CO Stelmack testified that he spoke with
Mr. Dabrowski about the employees he had observed on the fourth floor.
Mr. Dabrowski explained that the employees were pulling wires on the
fourth floor (Tr. 55, 159).

Mr. Dabrowski testified that he was with CO Stelmack at the time the
instant condition was observed, and he too observed the two employees.
He disputed CO Stelmack's estimate of having been 30 feet from the
employees at the time of the observation, and testified that they were
approximately 75 feet away from the two employees (Tr. 267). He also
testified that he was aware of no work being performed on this
elevation, which CO Stelmack called the fourth floor. He further
testified that copper wire was not being pulled at that location, he
testified that it was being pulled on the "fourth elevation"- the floor
directly above the floor the employees were observed (Tr. 267-268). He
acknowledged that the two employees were not violating any rule by
walking past the cited location (Tr. 329). It was his opinion that if
the employees were more than 4 feet from the edge of the floor, they
were not exposed to any fall hazard (Tr. 334).

Glenn Miller, one of the two observed employees, acknowledged that he
removed wire at various locations at the Sinter plant, but denied that
he told CO Stelmack that he pulled wire on the fourth floor of the
Sinter plant (Tr. 341-42, 348). He testified at the time of the
observation he was going from one set of steps to another - from the
third floor to the fourth floor (Tr. 342-43). He recalled that he and
the other employee were walking one behind the other. He testified that
the walkway was by the floor opening was 8 to 10 feet wide and that he
was approximately 6 feet from the floor opening (Tr. 347).

In /RGM Construction Co./, 17 BNA OSHC 1229, 1234 (No. 91-2107, 1995),
the Review Commission set forth precedent which has established that
"[t]he Secretary may prove employee exposure to a hazard by showing that
during the course of [employees'] assigned duties, their personal
comfort activities on the job, or their normal ingress-egress to and
from their assigned workplaces, employees have been in a zone of danger
or that it is reasonably predictable that they will be a zone of danger.
/Kaspar Electroplating Corp./, 16 BNA OSHC 1517, 1521 (No. 90-2866,
1993); /Armour Food Co./, 14 BNA OSHC 1817, 1824 (No. 86-247, 1990). The
zone of danger is determined by the hazard presented by the violative
condition and is normally that area surrounding the violative condition
that presents the danger to employees which the standard is intended to
prevent. /Gilles & Cotting, Inc./, 3 BNA OSHC 2002, 2003 (No. 504, 1976).

The undersigned finds that the Secretary has proven employee exposure by
a preponderance of evidence. The record reveals that there may have been
some confusion with regard to where the pulling of wire was done in
terms of the fourth floor or fourth elevation. The record reveals that
there was also a dispute as to the distance from which the observation
of the two employees was made. However, the undersigned finds that the
unrebutted evidence establishes that the two employees were in the zone
of danger of the uncovered floor opening as they traveled from one floor
to another. Furthermore, the undersigned finds that Mr. Miller's
testimony of being approximately 6 feet from the floor opening
establishes exposure as did CO Stelmack's testimony of a 4 foot distance
from the floor opening. The undersigned finds that traveling 4 to 6 feet
from the uncovered floor opening establishes exposure a fall hazard. The
distance may affect the probability of a fall, but does not negate the
hazard of an uncovered floor opening as employees travel pass it.
Furthermore, the fact that employees were not observed pulling wire at
that location, does negate a finding of employee exposure. Per the
observation of CO Stelmack, and as testified to by Mr. Miller, employees
traveled pass the uncovered floor opening to go to and from their work
locations. The undersigned finds that this activity put them in the zone
of danger of a fall hazard as they passed the floor opening.

The undersigned finds that had Respondent exercised reasonable
diligence, the presence of the presence of the cited condition would
have been known. Reasonable diligence involves several factors,
including an employer's "obligation to inspect the work area, to
anticipate hazards to which employees may be exposed, and to take
measures to prevent the occurrence." /Frank Swidzinski Co./, 9 BNA OSHA
1230, 1233 (No. 76-4627, 1981). Mr. Dabrowski should have been aware of
this condition, as he and other Brandenburg employees had conducted a
survey of the Sinter Plant, prior to the start of demolition operations,
to identify any safety hazards (Tr. 56-57, 260). Accordingly, the
undersigned finds that the Secretary has proven employer knowledge. Mr.
Dabrowski's knowledge is imputed to the Respondent. The undersigned
finds that the Secretary has established a prima facie violation of the
cited standard by a preponderance of evidence.

SERIOUS CLASSIFICATION

CO Stelmack determined that this violation was serious because the
employees were exposed to a fall distance of 8 feet 5 inches from the
fourth floor (Tr. 46). He concluded that the injuries resulting in
fractures could be expected from such a fall (Tr. 52- 53, 57). The
undersigned finds that the record supports finding of serious physical
harm as a result of this hazard.

PENALTY

CO Stelmack determined that the gravity of the violation reflected a low
severity and a lesser probability. The undersigned finds that these
recommendations adequately reflect the type of injuries expected -
fractures. He also determined that there was a lesser likelihood that an
injury would occur in view of the number of employees exposed and the
short duration of their exposure. The gravity based penalty was adjusted
as previously discussed for history and good faith. The undersigned
finds that the record supports the aforementioned findings, and that the
proposed penalty in the amount of $975.00 is appropriate.

*CITATION 1, ITEMS 3a and 3b*

*Item 3a*

29 CFR § 1926.251(a)(1) Rigging equipment for material handling shall be
inspected prior to use on each shift and as necessary during its use to
ensure that it is safe. Defective rigging equipment shall be removed
from service.

    *a) BURNING FIELD, EXCAVATOR #1095 - THE MAGNET ON THE EXCAVATOR WAS
    ATTACHED TO THE MACHINE WITH A MAGNET SLING AND SHACKLE. THE SHACKLE
    HAD WEAR IN THE CROWN TO A POINT WHERE THERE WAS GREATER THAN a 10%
    LOSS IN ORIGINAL DIAMETER. THE 1 -1/2" SHACKLE WAS WORN IN THE CROWN
    TO 1-1/8". THIS IS A LOSS IN DIAMETER OF 25%. THIS SHACKLE WAS STILL
    IN SERVICE.*

CO Stelmack testified that he observed that a shackle on the cited
excavator was worn to a point where it would be deemed defective and
should have been removed from service.[11] The excavator was used to
manipulate steel with magnets. He described the shackle as the device
that was used too couple the magnet chain to the excavator - it was
attached to the end of the boom/dipper of the excavator (Tr. 59). He
took a caliper reading of the diameter of the shackle in the area where
it was worn. He also measured an area where there was no wear. The
original diameter of the shackle was 1 Ť inches. The worn area, the
crown, was 1 1/8 inches (Tr. 59-60). This worn area represented a 25%
difference in the original diameter. CO Stelmack determined that based
upon his training as well as the manufacturer's information which stated
that shackles with a greater than 10% wear or metal loss be removed from
service, that the cited standard had been violated (Tr. 62). Respondent
does not challenge the fact that the shackle was worn (Respondent's Post
Trial Brief, p. 26). Respondent's witness, Mr. Dabrowski acknowledged
that there is considerable data in the rigging industry that a shackle
worn beyond 10% or its original diameter should be removed from service,
and it would be the practice to remove from service any shackle that was
so worn (Tr. 289-90). Accordingly, it is undisputed that the shackle was
worn, and thus, the undersigned finds that it was defective.

The Respondent submits that this condition did not constitute a
violation of the cited standard because the scope of §1926.251 is
limited to "slings in conjunction with other material handling equipment
for movement of material by _hoisting_..." 29 C.F.R.
§1926.251(a)(5)(emphasis added). It is Respondent's position that the
cited equipment was not being used for _hoisting_ material, i.e., lift
material. Instead the equipment was being used to manipulate material,
i.e., move pieces of scrap metal by way of a magnet attached to the arm
of an excavator with a shackle and sling assembly (Respondent's Post
Trial Brief, p. 26; Tr. 98- 99, 268-270, 379).

The undersigned finds that the term hoist encompasses the activity
observed here.[12] The record reveals that the magnets were raising
materials from piles, via their attraction, and moving them to other
areas (See e.g., Tr. 99) The chain sling and shackles were a part of the
apparatus used to lift the materials via the magnet. This activity is
consistent with the activity of "hoisting" as used in §1925.251. The
manipulation of the steel included lifting. Thus, the cited standard is
applicable. Accordingly, the undersigned finds that the cited standard
was applicable.

*ITEM 3b*

29 CFR §1926.251(b)(5) Whenever wear at any point of any chain link
exceeds that shown in Table H-2, the assembly shall be removed from
service.[13]

    *a) BURNING FIELD, EXCAVATOR #1095 - THE MAGNET CHAIN SLING ASSEMBLY
    WAS IN USE WITH WEAR ON THE COUPLING LINKS GREATER THAN THAT ALLOWED
    IN TABLE H-2 OF SUBPART H. THE THREE 1" COUPLING LINKS WERE WORN
    GREATER THAN THE 3/16" ALLOWABLE IN TABLE H-2. *

    *b) BURNING FIELD, EXCAVATOR #1083 - THE MAGNET CHAIN SLING ASSEMBLY
    WAS IN USE WITH WEAR ON THE COUPLING LINKS GREATER THAN THAT ALLOWED
    IN TABLE H-2 OF SUBPART H. THE THREE 1" COUPLING LINKS WERE WORN
    GREATER THAN THE 3/16" ALLOWABLE IN TABLE H-2.*

Co Stelmack testified he observed two sets of 3-leg chain slings - one
set on each of two excavators. The #1095 excavator utilized a 3-legged
alloy steel chain to attach a magnet to the tip of its boom on July 25,
1996. The original diameter of each of the coupling links on the chains
was 1 inch. Using a caliper, he measured the demitasse of the 3 links at
14/32 inch, 14/32 inch and 17/32 inch. Thus, the wear on these links was
18/32 inch, 18/32 inch, and 15/ 32 inch (Tr. 63-68,75-77; Exh. G-3).
These measurements are beyond the 3/16 inch maximum allowable wear He
also measured the wear on the three coupling links connecting a magnet
to excavator #1083 excavator on July 25. He determined that the coupling
links were worn greater than the 3/16 maximum allowable wear (Tr. 68).
Respondent does not challenge the fact that the coupling links were worn
(Respondent's Post Trial Brief, p. 26). Again, Respondent submits that
this condition did not constitute a violation of the cited standard
because the cited excavators were not engaged in hoisting. The
undersigned again finds that the excavators were engaged in hoisting,
and thus, the cited standard is applicable. (See discussion Item 3(a),
/supra/.)

The undersigned also finds that the record reveals that Respondent
presented no measurements which contradict the measurements CO Stelmack
made of the chain links. Thus, a finding of noncompliance is appropriate.

EMPLOYEE EXPOSURE

Respondent contends that there was no employee exposure as a result of
the conditions of the shackle and coupling links. (Respondent's Post
Trail Brief, p. 28). CO Stelmack determined through his observations and
employee interviews that the hazard associated with Items 3(a) and 3(b)
was that of being struck by the magnet or the load on the magnet, or
materials on the ground which the load may fall upon (Tr. 78-80, 85-87,
100-103).[14] He observed that the operator of a skid-steer loader, a
piece of mobile equipment, was within the swing radius of the excavator
#1083 (Tr. 73-74, 79, 157; Exh G-3). He also testified that the
excavators were used in the 100 to 200 acre area known as the burning
fields. In this area employees were on foot burning pieces of scrap
metal with hand held torches (Tr. 79). Also in the burning fields, there
was an area known as the "separating bays" where employees on foot
separated metal into piles. Employees in this area worked in conjunction
with the excavators with the magnets. They would go into a pile of scrap
and hand- pick pieces of material while the excavator was also working
on the pile to take out what the magnet would attract (Tr. 80). He also
testified that if one of the chain links broke, any load on the magnet
and the load on the magnet would fall to the ground, exposing employees
on the ground to hazards (Tr. 162-63). The record also reveals that the
excavators would travel over various terrains without loads, wherein the
magnets would swing from side to side (Tr. 293).

The undersigned finds that the employee exposure has been established by
a preponderance of evidence. The record establishes that during the
course of their assigned duties, employees would be in the zone of
danger presented by the violative condition. The undersigned finds that
in spite of the fact that the Respondent equipped its skid loader and
excavator operators two- way radios, these employees were still exposed
to a hazard of an unexpected fall of the magnet and/or load as the
result of the inadequate the shackles and coupling links. The excavators
traveled all over the worksite, including the burning fields, and were
subject to varying rotating and swinging motions (Tr. 164-65, 283, 290).
Thus, the potential exposure for employees on foot, who were burning or
cutting scrap metal or were separating copper or salvageable material,
and were not equipped with radios, varied with location (Tr. 283-85).
The undersigned does not find that the Secretary must prove that the
only employees potentially exposed were employees directly under the
radius of the arm of the excavator at a particular time. The undersigned
finds that all employees, including those in mobile equipment were
subject to potential danger of being struck as a consequence of the
excessive wear on the shackle and coupling links.

CO Stelmack determined that Respondent was aware of the conditions of
the shackles and chains. Employees informed him that they had indicated
within their inspection reports that the chains were bad. His
examination of the crane reports for crane #1095 revealed that the
condition of the chains had been noted from July 22 through July 25,
1996 (Tr. 155). He further testified that he spoke with Mr. Dabrowski
and he informed him that he had received these reports and that they had
not replaced the chains as yet because they had no replacements (Tr. 88;
Exh. G-6). Mr. Dabrowski also acknowledged during his testimony that
Respondent was aware that the chains were worn prior to the inspection
and was awaiting an order for new chains (Tr. 276-277). Employer
knowledge is established by a showing of employer awareness of the
physical conditions constituting the violation. /Phoenix Roofing, Inc./,
17 BNA OSHA 1076, (No. 90-2148, 1995), /aff'd without op./, 79 F. 3d
1146 (5th Cir. 1996). The undersigned finds that the record establishes
that Mr. Dabrowski was aware of the violative condition of the shackles
and chains. Mr. Dabrowski's knowledge is imputed to the Respondent.
Accordingly, the undersigned finds that the Secretary has established a
prima facie case of a violation of the cited standards by a
preponderance of evidence.

SERIOUS CLASSIFICATION

CO Stelmack classified these two items as serious because of the
possibility of being struck by material or the failure of the magnet. He
expected serious physical harm or death would be the most likely result.
The undersigned finds that the Secretary's serious classification of
these items was appropriate. The failure of the cited shackles and chain
links could result in serious physical harm or death to employees from
the magnets or loads falling upon or around them.

PENALTY

Items 3(a) and 3(b) were grouped for penalty purposes because they
involved similar or related hazards that may increase the potential for
injury. CO Stelmack determined that the gravity of the violation was
based upon a high severity as a result the expected injuries leading to
death, and a lesser probability. Mr. Dabrowski testified that employees
are trained to stay clear of the equipment, and if they must go into the
area of the excavator, they must get the operator's concurrence by
contacting the operator on his radio (Tr. 272). CO Stelmack also
acknowledged that Respondent had a safety policy instructing employees
not to walk under loads (Tr. 109). Additionally, employees operating the
loaders and excavators had two-way radios. The gravity based penalty was
again adjusted for history and good faith. The undersigned finds that
the record supports the aforementioned findings, and that the proposed
penalty in the amount of $1,625.00 is appropriate.

*FINDINGS OF FACT AND CONCLUSIONS OF LAW*

The foregoing decision constitutes the findings of fact and conclusions
of law in accordance with Federal Rule of Civil Procedure 52(a).

*ORDER*

Based upon the foregoing, it is hereby ORDERED that:

Citation 1, Item 1 is AFFIRMED with a penalty of $1,625.00.

Citation 1, Item 2 is AFFIRMED with a penalty of $975.00.

Citation 1, Items 3(a) and 3(b) are AFFIRMED with a penalty of $1,625.00.

 

Covette Rooney
Judge, OSHRC

Dated:

Washington, D.C.

------------------------------------------------------------------------

FOOTNOTES

[1]: "Tr" refers to trial transcript. "Exh." refers to exhibits.

[2]: See Appendix "A"

[3]: "Sloping" means a method of protecting employees from cave-ins by
excavating to form sides of an excavation that are inclined away from
the excavation so as to prevent cave- ins. The angle of incline required
to prevent a cave-in varies with differences in such factors as the soil
type, environmental conditions of exposure, and application of surcharge
loads. 29 C.F.R. §1926.650(b).

[4]: See "Appendix B", attached hereto

[5]: The Secretary presented testimony from Dr. Peck who did not
actually view or perform any tests upon the soil of the subject trench
(Tr. 174). He concluded that the soil classification was Type B based
upon his review of the OSHA video tape of the site and photographic
evidence (Exhs. G-2 and 5). He testified that the video revealed
evidence of many rock fragments and showed a great inclination to break
apart into fragments rather than stick together, in the vicinity of the
excavation which corresponded to Type B soil. He provided examples of
where rock material appeared in the video and photographic evidence (Tr.
189-190, 194-97). He indicated that the soil was composed of sandy slit
in areas, clay in areas and rock fragments in other areas. He also
stated that the material was broken up into microscopic fissures that
would correspond to fissures. This mixed soil was indicative to Type B.
He also indicated that the soil around the pipe showed evidence of
having been previously disturbed (Tr. 197). It was his opinion that
there was not "any way" the soil depicted in the video and photograph
could have been Type A (Tr. 199). He also explained that previously
disturbed soil is soil no longer a natural deposit - it has been
manually moved. He also stated that Type A, B, or C soil can contain
clay (Tr. 524). The undersigned finds that this testimony corroborated
CO Stelmack's testimony concerning his observations of the trench.

[6]: *"shall"... 1* ... will have to: MUST ... 2 ...used to express a
command or exhortation...used in laws, regulations, or directives to
express what is mandatory... /Webster's New Collegiate Dictionary/ 1056
(Merriam-Webster ed. 1979).

[7]: Respondent attacks the accuracy of this statement because CO
Stelmack did not show this statement to Mr. O'Donnell for his
concurrence with its contents per OSHA inspection procedures as set
forth in the field operations manual. The undersigned finds that CO
Stelmack's failure to show Mr. O'Donnell his notes does not negate the
veracity of the contents of said notes. Furthermore, Review Commission
precedent has established that the field operations is not binding on
the Secretary and does not create any substantive rights for employers.
/See Andrew Catapano Enterprises, Inc./, 17 BNA OSHC 1776, 1780 (Nos.
90-0189 et al, 1996), and cases cited therein.

[8]: The undersigned assigns little weight to the results of these tests
in view of the fact that they were taken subsequent to July 2, and
subsequent to the trench being backfilled (Tr. 254, 257 304-307; Exh.
R-9). Furthermore, the undersigned notes that Mr. Richard Zaloum, a
registered professional engineer, whose company ran tests in the lab and
in the field indicated that the results of said samples indicated that
the sample had an unconfined compressive strength of 1.5 tons per square
foot, however, it was his opinion that without having been present at
the time of the excavation, he could not give a definitive opinion as to
whether the soil was Type A or Type B (Tr. 504).

[9]: To satisfy the element of knowledge, the Complainant must prove
that a cited employer either knew, or with the exercise of reasonable
diligence could have known of the presence of the violative condition.
/Seibel Modern Manufacturing & Welding Corp./, 15 BNA OSHC 1218, 1221
(No. 88-821, 1991); /Consolidated Freightways Corp./, 15 BNA OSHC 1317,
1320-1321 (No. 86-351, 1991). Review Commission precedent has
established that actual or constructive knowledge of the employer's
foreman or supervisor can be imputed to the employer. /Jersey Steel
Erectors/, 16 BNA OSHC 1162 (No. 90-1307, 1993).

[10]: Mr. Dabrowski testified he subsequently measured this area and it
was 11 feet 8 inches from the wall to the edge of the floor (Tr. 263).

[11]: The undersigned notes that the safety standards do not define the
term *"defective."* The term "defective" is defined as " *1.* lacking
something essential: FAULTY . . . " /Webster's New Collegiate
Dictionary/ 294 (Merriam-Webster ed. 1979).

[12]: *"hoist* ... to raise into position by or as if by means of
tackle... *tackle*...*1.* a set of the equipment used in a particular
activity; ... *2.* ...b. an assemblage of ropes and pulleys arranged to
gain mechanical advantage for hoisting and pulling..." /Webster's New
Collegiate Dictionary/ 1056 (Merriam-Webster ed. 1979).

[13]: TABLE H - 2. -- MAXIMUM ALLOWABLE WEAR AT ANY POINT OF LINK
Chain size, (inches) 	Maximum allowable wear (inch)
1/4 	3/64
3/8 	5/64
1/2 	7/64
5/8 	9/64
3/4 	5/32
7/8 	11/64
1 	3/16
1 1/8 	7/32
1 1/4 	1/4
1 3/8 	9/32
1 1/2 	5/16
1 3/4 	11/32

[14]: Again, CO Stelmack contemporaneously recorded his interviews with
employees (Tr. 84-85).

------------------------------------------------------------------------

*Appendix A*

*§1926.652* (b) /Design of sloping and benching systems./ The slopes and
configurations of sloping and benching systems shall be selected and
constructed by the employer or his designee and shall be in accordance
with the requirements of paragraph (b)(1); or, in the alternative,
paragraph (b)(2); or, in the alternative, paragraph (b)(3); or, in the
alternative, paragraph (b)(4), as follows:

(1) /Option (1)/ - Allowable configurations and slopes. (I) Excavations
shall be sloped at an angle not steeper than one and one-half horizontal
to one vertical (34 degrees measured from the horizontal), unless the
employer uses one of the other options listed below.

(ii) Slopes specified in paragraph (b)(1)(I) of this section, shall be
excavated to form configurations that are in accordance with the slopes
shown for Type C soil in Appendix B to this subpart.

(2) /Option (2)/ - Determination of slopes and configurations using
Appendices A and B. Maximum allowable slopes, and allowable
configurations for sloping and benching systems, shall be determined in
accordance with the conditions and requirements set forth in appendices
A and B to this subpart.

(3) /Option (3)/ - Designs using other tabulated data. (I) Designs of
sloping or benching systems shall be selected from and in accordance
with tabulated data, such as tables and charts.

(ii) The tabulated data shall be in written form and shall include all
of the following:

(A)Identification of the parameters that affect the selection of a
sloping or benching system drawn from such data;

(B)Identification of the limits of use of the data, to include the
magnitude and configuration of slopes determined to be safe;

(C) Explanatory information as may be necessary to aid the user in
making a correct selection of a protective system from the data.

(iii) At least one copy of the tabulated data which identifies the
registered professional engineer who approved the data, shall be
maintained at the jobsite during construction of the protective system.
After that time the data may be stored off the jobsite, but a copy of
the data shall be made available to the Secretary upon request.

(4) /Option (4)/ - Design by a registered professional engineer.

(I) Sloping and benching systems not utilizing Option (1) or Option (2)
or Option

(3) under paragraph (b) of this section shall be approved by a
registered professional engineer.

(ii) Designs shall be in written form and shall include at least the
following:

(A) The magnitude of the slopes that were determined to be safe for the
particular project;

(B) The configurations that were determined to be safe for the
particular project;

(C) The identity of the registered professional engineer approving the
design.

(iii) At least one copy of the design shall be maintained at the jobsite
while the slope is being constructed. After that time the design need
not be at the jobsite, but a copy shall be made available to the
Secretary upon request.

(c) /Design of support systems, shield systems, and other protective
systems./ Designs of support systems , shield systems, and other
protective systems shall be selected and constructed by the employer or
his designee and shall be in accordance with the requirements of
paragraph (c)(1); or, in the alternative, paragraph (c)(2); or, in the
alternative, paragraph (c)(3); or, I the alternative, paragraph (c)(4)
as follows: . . .

 

*APPENDIX "B"*

/APPENDIX A TO SUBPART P - Soil Classification/

/(a) Scope and application - (1) Scope./ This appendix describes a
method of classifying soil and rock deposits based on site and
environmental conditions, and on the structure and composition of the
earth deposits. The appendix contains definitions, sets forth
requirements, and describes acceptable visual and manual tests for use
in classifying soils.

/(2) Application./ This appendix applies when a sloping or benching
system is designed in accordance with the requirements set forth in
1926.652(b)(2) as a method of protection for employees from cave-ins.
This appendix also applies when timber shoring for excavations is
designed as a method of protection from cave-ins in accordance with
appendix C to subpart P of part 1926, and when aluminum hydraulic
shoring is designed in accordance with appendix D. This Appendix also
applies if other protective systems are designed and selected for use
from data prepared in accordance with the requirements set forth in
1926.652(c), and the use of the data is predicated on the use of the
soil classification system set forth in this appendix.

/(b) Definitions./ The definitions and examples given below are based
on, in whole or in part, the following; American Society for Testing
Materials (ASTM) Standards D653-85 and D2488; The Unified Soils
Classification System; The U.S. Department of Agriculture (USDA)
Textural Classification Scheme; and The National Bureau of Standards
Report BSS-121.

/"Cemented soil"/ means a soil in which the particles are held together
by a chemical agent, such as calcium carbonate, such that a hand-size
sample cannot be crushed into powder or individual soil particles by
finger pressure.

/"Cohesive soil"/ means clay (fine grained soil), or soil with a high
clay content, which has cohesive strength. Cohesive soil does not
crumble, can be excavated with vertical side slopes, and is plastic when
moist. Cohesive soil is hard to break up when dry, and exhibits
significant cohesion when submerged. Cohesive soils include clayey silt,
sandy clay, silty clay, clay and organic clay.

/"Dry soil"/ means soil that does not exhibit visible signs of moisture
content.

/"Fissured"/ means a soil material that has a tendency to break along
definite planes of fracture with little resistance, or a material that
exhibits open cracks, such as tension cracks, in an exposed surface.

/"Granular soil"/ means gravel, sand, or silt (coarse grained soil) with
little or no clay content. Granular soil has no cohesive strength. Some
moist granular soils exhibit apparent cohesion. Granular soil cannot be
molded when moist and crumbles easily when dry.

/"Layered system"/ means two or more distinctly different soil or rock
types arranged in layers. Micaceous seams or weakened planes in rock or
shale are considered layered.

/"Moist soil"/ means a condition in which a soil looks and feels damp.
Moist cohesive soil can easily be shaped into a ball and rolled into
small diameter threads before crumbling. Moist granular soil that
contains some cohesive material will exhibit signs of cohesion between
particles.

/"Plastic"/ means a property of a soil which allows the soil to be
deformed or molded without cracking, or appreciable volume change.

/"Saturated soil"/ means a soil in which the voids are filled with
water. Saturation does not require flow. Saturation, or near saturation,
is necessary for the proper use of instruments such as a pocket
penetrometer or sheer vane.

/"Soil classification system"/ means, for the purpose of this subpart, a
method of categorizing soil and rock deposits in a hierarchy of Stable
Rock, Type a, Type B, and Type C, in decreasing order of stability. The
categories are determined based on an analysis of the properties and
performance characteristics of the deposits and the characteristics of
the deposits and the environmental conditions of exposure.

/"Stable rock"/ means natural solid mineral matter that can be excavated
with vertical sides and remain intact while exposed.

/"Submerged soil"/ means soil which is underwater or is free seeping.

/"Type a"/ means cohesive soils with an unconfined, compressive strength
of 1.5 ton per square foot (tsf) (144 kPa) or greater. Examples of
cohesive soils are: clay, silty clay, sandy clay, clay loam and, in some
cases, silty clay loam and sandy clay loam. Cemented soils such as
caliche and hardpan are also considered Type a. However, no soil is Type
a if:

(I) The soil is fissured; or

(ii) The soil is subject to vibration from heavy traffic, pile driving,
or similar effects; or

(iii) The soil has been previously disturbed; or

(iv) The soil is part of a sloped, layered system where the layers dip
into the excavation on a slope of four horizontal to one vertical
(4H:1V) or greater; or

(v) The material is subject to other factors that would require it to be
classified as a less stable material.

/"Type B"/ means:

(I) Cohesive soil with an unconfined compressive strength greater than
0.5 tsf (48 kPa) but less than 1.5 tsf (144 kPa); or

(ii) Granular cohesionless soils including: angular gravel (similar to
crushed rock), silt, silt loam, sandy loam and, in some cases, silty
clay loam and sandy clay loam.

(iii) Previously disturbed soils except those which would otherwise be
classed as Type C soil.

(iv) Soil that meets the unconfined compressive strength or cementation
requirements for Type a, but is fissured or subject to vibration; or

(v) Dry rock that is not stable; or

(vi) Material that is part of a sloped, layered system where the layers
dip into the excavation on a slope less steep than four horizontal to
one vertical (4H:1V), but only if the material would otherwise be
classified as Type B.

/"Type C"/ means:

(I) Cohesive soil with an unconfined compressive strength of 0.5 tsf (48
kPa) or less; or

(ii) Granular soils including gravel, sand, and loamy sand; or

(iii) Submerged soil or soil from which water is freely seeping; or

(iv) Submerged rock that is not stable, or

(v) Material in a sloped, layered system where the layers dip into the
excavation or a slope of four horizontal to one vertical (4H:1V) or
steeper.

/"Unconfined compressive strength"/ means the load per unit area at
which a soil will fail in compression. It can be determined by
laboratory testing, or estimated in the field using a pocket
penetrometer, by thumb penetration tests, and other methods.

/"Wet soil"/ means soil that contains significantly more moisture than
moist soil, but in such a range of values that cohesive material will
slump or begin to flow when vibrated. Granular material that would
exhibit cohesive properties when moist will lose those cohesive
properties when wet.

/(c) Requirements - (1) Classification of soil and rock deposits./ Each
soil and rock deposit shall be classified by a competent person as
Stable Rock, Type a, Type B, or Type C in accordance with the
definitions set forth in paragraph (b) of this appendix.

/(2) Basis of classification./ The classification of the deposits shall
be made based on the results of at least one visual and at least one
manual analysis. Such analyses shall be conducted by a competent person
using tests described in paragraph (d) below, or in other recognized
methods of soil classification and testing such as those adopted by the
American Society for Testing Materials, or the U.S. Department of
Agriculture textural classification system.

/(3) Visual and manual analyses./ The visual and manual analyses, such
as those noted as being acceptable in paragraph (d) of this appendix,
shall be designed and conducted to provide sufficient quantitative and
qualitative information as may be necessary to identify properly the
properties, factors, and conditions affecting the classification of the
deposits.

/(4) Layered systems./ In a layered system, the system shall be
classified in accordance with its weakest layer. However, each layer may
be classified individually where a more stable layer lies under a less
stable layer.

/(5) Reclassification./ If, after classifying a deposit, the properties,
factors, or conditions affecting its classification change in any way,
the changes shall be evaluated by a competent person. The deposit shall
be reclassified as necessary to reflect the changed circumstances.

/(d) Acceptable visual and manual tests./ - (1) Visual tests. Visual
analysis is conducted to determine qualitative information regarding the
excavation site in general, the soil adjacent to the excavation, the
soil forming the sides of the open excavation, and the soil taken as
samples from excavated material.

(I) Observe samples of soil that are excavated and soil in the sides of
the excavation. Estimate the range of particle sizes and the relative
amounts of the particle sizes. Soil that is primarily composed of
fine-grained material is cohesive material. Soil composed primarily of
coarse-grained sand or gravel is granular material.

(ii) Observe soil as it is excavated. Soil that remains in clumps when
excavated is cohesive. Soil that breaks up easily and does not stay in
clumps is granular.

(iii) Observe the side of the opened excavation and the surface area
adjacent to the excavation. Crack- like openings such as tension cracks
could indicate fissured material. If chunks of soil spall off a vertical
side, the soil could be fissured. Small spalls are evidence of moving
ground and are indications of potentially hazardous situations.

(iv) Observe the area adjacent to the excavation and the excavation
itself for evidence of existing utility and other underground
structures, and to identify previously disturbed soil.

(v) Observed the opened side of the excavation to identify layered
systems. Examine layered systems to identify if the layers slope toward
the excavation. Estimate the degree of slope of the layers.

(vi) Observe the area adjacent to the excavation and the sides of the
opened excavation for evidence of surface water, water seeping from the
sides of the excavation, or the location of the level of the water table.

(vii) Observe the area adjacent to the excavation and the area within
the excavation for sources of vibration that may affect the stability of
the excavation face.

/(2) Manual tests./ Manual analysis of soil samples is conducted to
determine quantitative as well as qualitative properties of soil and to
provide more information in order to classify soil properly.

/(I) Plasticity./ Mold a moist or wet sample of soil into a ball and
attempt to roll it into threads as thin as 1/8-inch in diameter.
Cohesive material can be successfully rolled into threads without
crumbling. For example, if at least a two inch (50 mm) length of
1/8-inch thread can be held on one end without tearing, the soil is
cohesive.

/(ii) Dry strength./ If the soil is dry and crumbles on its own or with
moderate pressure into individual grains or fine powder, it is granular
(any combination of gravel, sand, or silt). If the soil is dry and falls
into clumps which break up into smaller clumps, but the smaller clumps
can only be broken up with difficulty, it may be clay in any combination
with gravel, sand or silt. If the dry soil breaks into clumps which do
not break up into small clumps and which can only be broken with
difficulty, and there is no visual indication the soil is fissured, the
soil may be considered unfissured.

/(iii) Thumb penetration./ The thumb penetration test can be used to
estimate the unconfined compressive strength of cohesive soils. (This
test is based on the thumb penetration test described in American
Society for Testing and Materials (ASTM) Standard designation D2488 -
"Standard Recommended Practice for Description of Soils (Visual - Manual
Procedure).") Type a soils with an unconfined compressive strength of
1.5 tsf can be readily indented by the thumb; however, they can be
penetrated by the thumb only with very great effort. Type C soils with
an unconfined compressive strength of 0.5 tsf can be easily penetrated
several inches by the thumb, and can be molded by light finger pressure.
This test should be conducted on an undisturbed soil sample, such as a
large clump of spoil, as soon as practicable after excavation to keep to
a minimum the effects of exposure to drying influences. If the
excavation is later exposed to wetting influences (rain, flooding), the
classification of the soil must be changed accordingly.

/(iv) Other strength tests./ Estimates of unconfined compressive
strength of soils can also be obtained by use of a pocket penetrometer
or by using a hand-operated shearvane.

/(v) Drying test./ The basic purpose of the drying test is to
differentiate between cohesive material with fissures, unfissured
cohesive material, and granular material. The procedure for the drying
test involves drying a sample of soil that is approximately one inch
thick (2.54 cm) and six inches (15.24 cm) in diameter until it is
thoroughly dry:

(a) If the sample develops cracks as it dries, significant fissures are
indicated.

(B) Samples that dry without cracking are to be broken by hand. If
considerable force is necessary to break a sample, the soil has
significant cohesive material content. The soil can be classified as an
unfissured cohesive material and the unconfined compressive strength
should be determined.

(C) If a sample breaks easily by hand, it is either a fissured cohesive
material or a granular material. To distinguish between the two,
pulverize the dried clumps of the sample by hand or by stepping on them.
If the clumps do not pulverize easily, the material is cohesive with
fissures. If they pulverize easily into very small fragments, the
material is granular.

/APPENDIX B TO SUBPART P - SLOPING AND BENCHING/

/(a) Scope and application./ This appendix contains specifications for
sloping and benching when used as methods of protecting employees
working in excavations from cave-ins. The requirements of this appendix
apply when the design of sloping and benching protective systems is to
be performed in accordance with the requirements set forth in
1926.652(b)(2).

/(b) Definitions./

/"Actual slope"/ means the slope to which an excavation face is excavated.

/"Distress"/ means that the soil is in a condition where a cave-in is
imminent or is likely to occur. Distress is evidenced by such phenomena
as the development of fissures in the face of or adjacent to an open
excavation; the subsidence of the edge of an excavation; the slumping of
material from the face or the bulging or heaving of material from the
bottom of an excavation; the spalling of material from the face of an
excavation; and ravelling, i.e., small amounts of material such as
pebbles or little clumps of material suddenly separating from the face
of an excavation and trickling or rolling down into the excavation.

/"Maximum allowable slope"/ means the steepest incline of an excavation
face that is acceptable for the most favorable site conditions as
protection against cave-ins, and is expressed as the ratio of horizontal
distance to vertical rise (H:V).

/"Short term exposure"/ means a period of time less than or equal to 24
hours that an excavation is open.

/(c) Requirements/ - (1) Soil classification. Soil and rock deposits
shall be classified in accordance with appendix a to subpart P of part
1926.

/(2) Maximum allowable slope./ The maximum allowable slope for a soil or
rock deposit shall be determined from Table B-1 of this appendix.

/(3) Actual slope./ (I) The actual slope shall not be steeper than the
maximum allowable slope.

(ii) The actual slope shall be less steep than the maximum allowable
slope, when there are signs of distress. If that situation occurs, the
slope shall be cut back to an actual slope which is at least 1/2
horizontal to one vertical (1/2H:1V) less steep than the maximum
allowable slope.

(iii) When surcharge loads from stored material or equipment, operating
equipment, or traffic are present, a competent person shall determine
the degree to which the actual slope must be reduced below the maximum
allowable slope, and shall assure that such reduction is achieved.
Surcharge loads from adjacent structures shall be evaluated in
accordance with 1926.651(I).

/(4) Configurations./ Configurations of sloping and benching systems
shall be in accordance with Figure B- 1.

TABLE B-1
MAXIMUM ALLOWABLE SLOPES
SOIL OR ROCK TYPE 	MAXIMUM ALLOWABLE SLOPES (H:V)(1) FOR EXCAVATIONS
LESS THAN 20 FEET DEEP(3)
STABLE ROCK 	VERTICAL (90 Deg.)
TYPE a (2) 	3/4:1 (53 Deg.)
TYPE B 	1:1 (45 Deg.)
TYPE C 	1 1/2:1 (34 Deg.)
Footnote(1) Numbers shown in parentheses next to maximum allowable
slopes are angles expressed in degrees from the horizontal. Angles have
been rounded off.
Footnote(2) a short-term maximum allowable slope of 1/2H:1V (63 degrees)
is allowed in excavations in Type a soil that are 12 feed (3.67 m) or
less in depth. Short-term maximum allowable slopes for excavations
greater than 12 feet (3.67 m) in depth shall be 3/4H:1V (53 degrees).
Footnote(3) Sloping or benching for excavations greater than 20 feet
deep shall be designed by a registered professional engineer.

 

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