My WebLink
|
Help
|
About
|
Sign Out
Home
Browse
Search
2007-10-31_REVISION - M2006080 (2)
DRMS
>
Day Forward
>
Revision
>
Minerals
>
M2006080
>
2007-10-31_REVISION - M2006080 (2)
Metadata
Thumbnails
Annotations
Entry Properties
Last modified
6/16/2021 5:57:02 PM
Creation date
11/21/2007 8:30:06 PM
Metadata
Fields
Template:
DRMS Permit Index
Permit No
M2006080
IBM Index Class Name
Revision
Doc Date
10/31/2007
Doc Name
Submittal
From
WSI
To
DRMS
Type & Sequence
TR1
Media Type
D
Archive
No
There are no annotations on this page.
Document management portal powered by Laserfiche WebLink 9 © 1998-2015
Laserfiche.
All rights reserved.
/
98
PDF
Print
Pages to print
Enter page numbers and/or page ranges separated by commas. For example, 1,3,5-12.
After downloading, print the document using a PDF reader (e.g. Adobe Reader).
View images
View plain text
~. <br />~ CORE BORING REPORT Boring No. LHP-5 <br />__ Sheet NO.2of2 <br />Project: Loveland Ready Mix Slurry Wall File No. 107021-000 <br />3 Start: April 17, 2007 <br />Client: Com ass Environmental <br />3 p Finish: April 20, 2007 <br />___ _ Contractor: Dakota Drilling Driller: Josh/Blake <br /> LH Rep.: G. Snyder <br />N <br />t °o t <br />N <br />Z C <br />`- <br /> <br />~ <br />c~ ~ <br />E T <br />a <br /> <br />m <br />E <br />°N ; ° z a ; o o ~ mN Visual-Manual Identifcation and Description A <br />o <br />W E v ~ o ~ a m m~ a <br />' vl ~ ~ o a w 3 <br /> <br /> 3]90 <br /> Very soft, slightly to moderately weathered, light gray, sandy CLAYS70NE (BR), very fine to <br /> fine grained; close to moderately close spaced horizontal joints, tight, slightly rough to rough. <br />~ R-5 64" 32.5" 3.0 slightly weathered, planar, no inflling. Becoming sandier with depth. <br /> (54% (27%) <br /> -PIERRE SHALE- <br /> a]as <br />as End of exploratlon at 34 ft. <br />a7sa <br />4)75 <br />5 <br />a]]0 <br />60 <br />4765 <br />65 <br />6760 <br />NOTES: Sail identification based on visual-manual methotls of the USCS as practiced by Lyman Henn, Inc. BOrlrlg NO. LHP-$ <br />,Maximum particle size (MP$) is determined by direct observation within Ne limitations of the sampler. <br />
The URL can be used to link to this page
Your browser does not support the video tag.