X.3.6 Полевые испытания грунта методом вращательного среза

Aas G. Vurdering av korttidsstabilitet i leire pa basis av udrenert skjaerfasthet.

(Evaluation of short term stability in clays based on undrained shear strength) (in Norwegian); NGM — 79 Helsingfors, 1979, р. 588–596.

Aas G., Lacasse S., Lunne T., Hoeg K. (1986). Use of in-situ tests for foundation design on clay. ASCE Geotechnical Special Publication 6.

Danish Geotechnical Institute Bulletin No. 7. Copenhagen: DGI, 1959.

Hansbo S. A new approach to the determination of the shear strength of clay by the fall-cone test. Stockholm: Royal Swedish Geotechnical Institute, Proc. No. 14, 1957.

Larsson R., Bergdahl U., Erikson L. Evaluation of shear strength in cohesive soils with special references to Swedish practice and experience Linkoping: Swedish Geotechnical Institute, Information 3E, 1984.

Larsson R., Ahnberg H. The effect of slope crest excavations on the stability of slopes. Linkoping: Swedish Geotechnical Institute. Report No 63, 2003.

Veiledning for utforelse av vingeborr (Recommendations for vane boring) (in Norwegian). Melding No. 4, Utgitt 1982, Rev. 1. Norwegian Geotechnical Institute, 1989.

Recommended Standard for Field Vane Test SGF Report 2:93E. Swedish Geotechnical Society, 1993.

X.3.7 Испытания плоским дилатометром

CEN ISO/TS 22476-11  Geotechnical investigation and testing — Field testing — Part 11: Flat dilatometer test.

Marchetti S. In situ test by flat dilatometer. Journal of the Geotechnical Engineering Division, Proc. ASCE, Vol. 106, N. GT3, 1980, р. 299–321.

Marchetti S., Monaco P., Totani G., Calabrese M. The flat dilatometer test (DMT) in soil investigations. ISSMGE TC16 Report; Bali: Proc. Insitu, 2001, 41 р.

X.3.8 Штамповые испытания

BS 1377-9:1990  Methods of test for soils for civil engineering purposes — Part 9: In situ vertical settlement and strength tests.

Burland J. B. Reply to discussion. Proc. conf. on in situ investigations of soils and rock.

London: Inst. Civil Engineers, 1969, р. 62.

Bergdahl U., Ottosson E., Malmborg B. S. Plattgrundlaggning (Spread foundations) (in Swedish). Stockholm: AB Svensk Byggtjanst, 1993, 282 р.

Marsland A. Model studies of deep in-situ loading tests in clay. Civ. Eng. and Pub. Wks. Review, Vol 67, No 792, July 1972, р. 695, 697, 698.

X.4 Документы, относящиеся к лабораторным испытаниям

X.4.1 Классификационные испытания, идентификация и характеристика грунтов

X.4.1.1 Инженерно-геологические изыскания

BS 5930:1999  Code of practice for site investigations.

X.4.1.2 Определение влагосодержания

CEN ISO/TS 17892-1  Geotechnical investigation and testing — Laboratory testing of soil — Part 1: Determination of water content.

DIN 18 121:1998  Subsoil; testing procedures and testing equipment, water content, determination by drying in oven.

NF P 94-050:1995  Soils: Investigation and testing. Determination of moisture content. Oven drying method.

BS 1377-2:1990  Methods of test for soils for civil engineering purposes — Part 2: Classification tests.

SN 670 340:1959  Essais; Teneur en eau/Versuche; Wassergehalt.

ASTM D2216:1998  Test method for laboratory determination of water (moisture) content of soil, rock, and soil-aggregate mixtures.

ASTM D2974:2000  Test methods for moisture, ash, and organic matter of peat and other organic soils.

ASTM D4542-95(2001)  Test methods for pore water extraction and determination of the soluble salt content of soils by refractometer.

SS 0271 16:1989  Geotechnical tests — Water content and degree of saturation.