D82 地球物理勘探设备 标准查询与下载



共找到 35 条与 地球物理勘探设备 相关的标准,共 3

本标准规定了重力仪的技术要求、试验方法、检验规则以及标志、包装、运输与贮存。 本标准适用于地面高精度和高精度恒温石英弹簧重力仪,是该类仪器设计、制造与检验的主要技术依据。

General purpose specification of high-precise quartz spring gravimeter

ICS
17.100
CCS
D82
发布
1991-10-29
实施
1992-08-01

本标准规定了井斜45°以内,测量范围0~15×10nT,“垂向系统”三分量井中磁力仪主要技术指标、试验方法、检验规则、标志、包装、运输与贮存。

Specification for three-component borehole magnetometer

ICS
17.220
CCS
D82
发布
1989-02-22
实施
1989-09-01

本标准规定了悬丝磁力仪的技术要求、试验方法、检验规则、标志、包装、运输与贮存。 本标准适用于光学系统读数和计数器读数的悬丝式垂直磁力仪,是该类仪器制造与检验的主要技术依据。

General purpose specification of filar suspension magnetometer

ICS
17.220
CCS
D82
发布
1989-02-22
实施
1989-09-01

Explosion-proof low-energy γ-γ combined logging tool for coal mines

ICS
73.100.99
CCS
D82
发布
2023-10-26
实施
2024-01-31

Rayleigh wave detector for coal mines

ICS
73.100.99
CCS
D82
发布
2023-10-26
实施
2024-01-31

Coal mine water pressure recorder

ICS
73.100.99
CCS
D82
发布
2023-10-26
实施
2024-01-31

Density logging instrument for coal mines

ICS
73.100.99
CCS
D82
发布
2023-10-26
实施
2024-01-31

本标准规定了采场钻孔水文远程监测设备的术语和定义、组成与分类、主要功能、要求、试验方法、检验规则、标志、包装、运输、贮存。 本标准适用于在煤矿矿区和煤矿井下使用的钻孔水位、水压监测设备。

The equipments system of the borehole hydrologic in mining district

ICS
73.100.99
CCS
D82
发布
2011-04-12
实施
2011-09-01

本标准规定了多分量、多采集站瞬变电磁场探测仪的术语和定义、组成及主要功能、要求、试验方法、检验规则、标志、包装、运输、贮存。 本标准适用于做地质灾害预测、水文地质和工程地质勘察使用的多分量、多采集站瞬变电磁探测的地球物理勘探仪器。

The multi-components and multi-survey stations transient electromagnetic field detectors

ICS
73.100.99
CCS
D82
发布
2011-04-12
实施
2011-09-01

Hollow-stem augers are frequently used for geotechnical exploration. Often, hollow-stem augers are used with other sampling systems, such as split barrel penetration resistance testing, Test Method D 1586, or thin-wall tube sampling, Practice D 1587 (see 2.5). Hollow-stem augers may be used to advance a drill hole without sampling using a pilot bit assembly, or they may be equipped with a sampling system for obtaining soil cores. In some subsurface conditions that contain cohesive soils, the drillhole can be successfully advanced without the use of a pilot bit assembly. Intermittent drilling (advancing of the HSA column with or without a pilot bit) and sampling can be performed depending on the intervals to be sampled, or continuous sampling can be performed. During pauses in the drilling and sampling process, in situ testing or other soil sampling methods can be performed through the hollow auger column below the lead auger assembly. At completion of the boring to the depth of interest, the hole may be abandoned or testing or monitoring devices can be installed. Hollow-stem auger drilling allows for drilling and casing the hole simultaneously, thereby eliminating hole caving problems and contamination of soil samples (2). The hollow-stem auger drilling and sampling method can be a satisfactory means for collecting samples of shallow unconsolidated subsurface materials (2). Additional guidance on use can be found in Refs. 2, 3, 4, 5, 6. Soil sampling with a double-tube hollow-stem sampling system provides a method for obtaining continuous or intermittent samples of soils for accurate logging of subsurface materials to support geotechnical testing and exploration. A wide variety of soils from clays to sands can be sampled. The sampling systems can be particularly effective in dry soft to stiff clayey or silty deposits but also can work well under saturated conditions. Saturated cohesionless soils such as clean sands may flow and cave during drilling (see Note 1). In many cases, the HSA soil core sampling system can produce very little disturbance to the sample and can provide samples for laboratory tests for measurement of selected engineering properties. Large-diameter soil cores, if taken carefully, can provide Class C and D samples as described in Practice D 4220. The HSA systems can also provide disturbed samples of unsaturated sands and gravels with some structure preserved. Full 5-ft (1.5-m) long cores usually cannot be obtained in unsaturated sands due to increasing side wall friction between the dry sands and inside surface of the sample core barrel. Sample length of 2 to 2.5 ft. (0.60 to 0.75 m) is generally the limit of amount of sample that can be recovered in unsaturated sands before the friction between the sampler and the sand becomes too high and causes blocking or plugging of the sampler. Shorter large diameter core runs of 2.5 ft with the 5-ft sample barrel system, or with a 2.5-ft sample barrel system, have generally proven to result in the best samples. Note 18212;Research on thin-wall piston sampling in clean sands indicates that in general it is impossible to obtain truly undisturbed samples of saturated clean sands. These soils can dilate or collapse upon insertion of a sampling tube. The hollow-stem auger double-tube system can only obtain partitially disturbed samples of sands below the water table. Hollow-stem auger drilling is considered a shallow drilling method with maximum depth of drilling of 200 to 300 ft (60 to 90 m) depending on torque and pull down/retract capacity of the drilling equipment and subsurface conditions of the formation(s) encountered. Saturated loose unconsolidated deposits further limit maximum depth that can be attained. Hollow-stem augers can act as casings.......

Standard Practice for Using Hollow-Stem Augers for Geotechnical Exploration and Soil Sampling

ICS
CCS
D82
发布
2008
实施

本标准规定了矿用可视化钻孔检测仪(以下简称检测仪)的产品分类、技术要求、试验方法、检验规则及标志、包装、运输和贮存。 本标准适用于煤矿井下可视化钻孔检测仪的设计和制造。

The visual examine instrument of the borehole in mine

ICS
73.100.99
CCS
D82
发布
2006-08-19
实施
2006-12-01

本标准规定了地下空间使用的岩体无缆通信设备(以下简称通信设备)的术语和定义、要求、试验方法、检验规则、标志、包装、运输和贮存。 本标准适用于煤矿井下救灾、施工、勘测作业中语音通信用的通信设备。 本标准不适用于煤矿井下非岩体通信的其他通信设备。

The specifications of the rock communication apparatus without the cable in underground

ICS
73.100.99
CCS
D82
发布
2006-08-19
实施
2006-12-01

이 규격은 지름 27~63 mm까지의 항복 코어(yielding cores), 지름 4

Wireline diamond core drilling equipment-System A-Part 1:Metric units

ICS
73.100.30
CCS
D82
发布
2003-12-03
实施
2003-12-03

이 규격은 지름 1.063~2.500 in까지의 항복 코어(yielding cores)

Wireline diamond core drilling equipment-System A-Part 2:Inch units

ICS
71.100.30
CCS
D82
发布
2003-12-03
实施
2003-12-03

本标准规定了高分辨自动地电阻率仪的技术要求、试验方法、检验规则、标志、包装、运输和贮存。 本标准适用于野外勘测使用的高分辨自动地电阻率仪(以下简称仪器)。

General technical condition for high-resolution automatic earth resistivity instrument

ICS
CCS
D82
发布
1998-11-10
实施
1999-04-01

本标准规定了矿用瑞利波探测仪的防爆型式与组成、技术要求、试验方法、检验规则、标志、包装、运输和贮存。 本标准适用于在煤矿井下和地面使用的瑞利波探测仪(以下简称“仪器”)。也适用于其他部门工程地质、水文地质的地面与巷道使用的瑞利波探测仪。

General technical condition of Rayleigh wave seismograph for mining

ICS
CCS
D82
发布
1997-12-30
实施
1998-06-01

本标准规定了矿用全方位钻孔测斜仪的技术要求、试验方法、检验规则以及标志、包装、运输和贮存。 本标准适用于矿用全方位钻孔测斜仪。

General technical condition of all-direction borehole inclinometer for mining

ICS
CCS
D82
发布
1997-12-30
实施
1998-06-01

本标准规定了矿用密度测井仪的技术要求、试验方法、检验规则以及标志、包装、运输和贮存。 本标准适用于矿用密度测井仪。

General technical condition of borehole density logging instrument for mining

ICS
CCS
D82
发布
1997-12-30
实施
1998-06-01

本标准规定了煤矿用携带型气体测定仪器通用的技术要求、试验方法、检验规则、标志、包装、运输和贮存。 本标准适用于在煤矿井下具有爆炸性气体环境中使用的携带型气体测定仪器(以下简称仪器)。不适用于光干涉原理的气体测定仪器。

General technical specifications for portable gas measuring instruments used in coal mines

ICS
CCS
D82
发布
1996-04-29
实施
1996-10-01

Explosion-proof water pressure recorder

ICS
13.230
CCS
D82
发布
1996-01-15
实施
1996-05-01



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