抗弯检测标准
原创来源:北检院 发布时间:2023-02-12 11:20:53 点击数:
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抗弯检测标准相关信息
GB/T 1927.9-2021 无疵小试样木材物理力学性质试验方法 第9部分:抗弯强度测定
简介:
信息:ICS:79.040 CCS:B68 发布:2021-12-31 00:00:00.0 实施:2022-07-01 00:00:00.0
KS M ISO 17707-2021 鞋类.外底的试验方法.抗弯曲性
简介:
信息:ICS:61.060 CCS: 发布:2021-12-20 实施:
KS L 3110-2017 耐火砖抗弯强度试验方法
简介:
信息:ICS:81.080 CCS: 发布:2017-11-30 实施:
GB/T 1927.10-2021 无疵小试样木材物理力学性质试验方法 第10部分:抗弯弹性模量测定
简介:
信息:ICS:79.040 CCS:B68 发布:2021-12-31 00:00:00.0 实施:2022-07-01 00:00:00.0
NF T37-001-7-2021 镀层盘材金属. 试验方法. 第7部分: 抗弯曲开裂性(T弯曲试验)
简介:
信息:ICS:25.220.60 CCS:A29 发布:2021-10-13 实施:2021-11-27
KS L 3110-2017(2022) 耐火砖抗弯强度试验方法
简介:
信息:ICS:81.080 CCS: 发布:2017-11-30 实施:
GB/T 31967.2-2015 稀土永磁材料物理性能测试方法 第2部分:抗弯强度和断裂韧度的测定
简介:本部分规定了稀土永磁材料抗弯强度(σ)和断裂韧度(K)的测定方法。本部分适用于脆性断裂稀土永磁材料的抗弯强度和断裂韧度(K)的测定。抗弯强度的测定范围:20 MPa~2 000 MPa,断裂韧度(K)的测定范围:0.5 MPa ? m~50 MPa ? m。
信息:ICS:77.120.99 CCS:H14 发布:2015-09-11 实施:2016-08-01
ASTM D7748/D7748M-14(2021) 土工格栅、土工织物和相关产品抗弯刚度的标准试验方法
简介:
信息:ICS:59.080.70 CCS: 发布:2021-09-01 实施:
JIS P8125-1-2017 纸和纸板. 抗弯性的测定. 第1部分: 恒定弯曲率
简介:
信息:ICS:85.060 CCS:Y30 发布:2017-03-21 实施:
GB/T 13465.2-2014 不透性石墨材料试验方法 第2部分:抗弯强度
简介:GB/T 13465的本部分规定了测定不透性石墨材料抗弯强度时所用的试验装置、试样、试验程序和结果计算方法。本部分适用于不透性石墨材料抗弯强度测定。
信息:ICS:71.120 CCS:G94 发布:2014-09-03 实施:2015-03-01
KS M ISO 2493-1-2021 纸和纸板.抗弯曲性的测定.第1部分:恒定偏转率
简介:
信息:ICS:85.060 CCS: 发布:2021-06-30 实施:
JIS P8125-2-2017 纸和纸板. 抗弯性的测定. 第2部分: 泰伯试验机
简介:
信息:ICS:85.060 CCS:Y30 发布:2017-03-21 实施:
GB/T 1936.2-2009 木材抗弯弹性模量测定方法
简介:GB/T 1936的本部分规定了木材抗弯弹性模量的试验设备、试样、试验步骤、结果计算和试验报告。本部分适用于木材无疵小试样的抗弯弹性模量测定。
信息:ICS:79.020 CCS:B60 发布:2009-02-23 实施:2009-08-01
ASTM E518/E518M-21 砌体抗弯粘结强度的标准试验方法
简介:
信息:ICS:91.060.10 CCS: 发布:2021-06-01 实施:
ASTM C1674-16 环境温度下工程孔隙度(蜂窝状细胞通道)的先进陶瓷抗弯强度的标准试验方法
简介:
信息:ICS:81.060.30 CCS: 发布:2016-12-15 实施:
GB/T 1936.1-2009 木材抗弯强度试验方法
简介:GB/T 1936的本部分规定了测定木材抗弯强度的试验设备、试样、试验步骤、结果计算和试验报告。本部分适用于木材无疵小试样的抗弯强度试验。
信息:ICS:79.020 CCS:B60 发布:2009-02-23 实施:2009-08-01
ASTM C348-21 液压水泥砂浆抗弯强度标准试验方法
简介:
信息:ICS:91.100.10 CCS: 发布:2021-04-01 实施:
ASTM C78/C78M-15b 混凝土抗弯强度标准试验方法(使用三点加载简单梁)
简介:
信息:ICS:91.100.30 CCS: 发布:2016-12-01 实施:
GB/T 13465.2-2002 不透性石墨材料抗弯强度试验方法
简介: GB/T 13456的本部分规定了测定不透性石墨材料抗弯强度时所用试验装置、试样、试验程序和结果计算方法。 本标准适用于不透性石墨材料抗弯强度测定。
信息:ICS:71.120 CCS:G94 发布:2002-09-24 实施:2003-04-01
ASTM C78/C78M-21 混凝土抗弯强度标准试验方法(使用三点加载简单梁)
简介:
信息:ICS:91.100.30 CCS: 发布:2021-03-01 实施:
KS F 2408-2016(2021) 混凝土抗弯强度试验方法
简介:
信息:ICS:91.100.30 CCS: 发布:2016-10-26 实施:
GB/T 4741-1999 陶瓷材料抗弯曲强度试验方法
简介: 本标准规定了用三点负荷法测定陶瓷材料室温抗弯强度的试验设备、试样、试验步骤、结果计算及数据处理。 本标准适用于陶瓷材料及匣钵等陶瓷器辅助材料。
信息:ICS:81.060.20 CCS:Y24 发布:1999-08-12 实施:2000-02-01
ASTM C348-20 液压水泥砂浆抗弯强度标准试验方法
简介:
信息:ICS:91.100.10 CCS: 发布:2020-04-01 实施:
DIN EN ISO 17694-2016 鞋靴.鞋帮和鞋衬的试验方法.抗弯性(ISO 17694-2016).德文版本EN ISO 17694-2016
简介:
信息:ICS:61.060 CCS:Y78 发布:2016-10 实施:
GB/T 15615-1995 硅片抗弯强度测试方法
简介: 本标准规定了硅单晶切割片、研磨片和抛光片(简称硅片)的抗弯强度测试方法。 本标准适用于晶向为和的直拉、悬浮区熔硅单晶片的常温下抗弯强度的测量。硅片厚度为250~900μm。
信息:ICS:77.040.01 CCS:H23 发布:1995-07-12 实施:1996-02-01
KS M ISO 17694-2019 鞋类 - 鞋面和衬里的测试方法 - 抗弯曲性
简介:
信息:ICS:61.060 CCS: 发布:2019-12-27 实施:
DIN EN 846-9-2016 砖石工程辅助元部件试验方法.第9部分:门窗过梁抗弯曲性和抗剪切性测定.德文版本EN 846-9-2016
简介:
信息:ICS:91.080.30 CCS:P24 发布:2016-08 实施:
GB/T 15231.3-1994 玻璃纤维增强水泥性能试验方法 抗弯性能
简介: 本标准规定了玻璃纤维增强水泥抗弯性能试验方法。 本标准适用于测定抗碱玻璃纤维增强水泥净浆或砂浆(简称GRC)的抗弯性能。
信息:ICS:91.100.40 CCS:Q14 发布:1994-09-24 实施:1995-06-01
ASTM C1072-19 砌体抗弯粘结强度测量的标准试验方法
简介:
信息:ICS:91.060.10 CCS: 发布:2019-12-01 实施:
YS/T 1131-2016 烧结金属多孔材料 抗弯性能的测定
简介:
信息:ICS:77.160 CCS:H16 发布:2016-07-11 实施:2017-01-01
GB/T 14235.2-1993 熔模铸造模料 抗弯强度测定方法
简介: 本标准规定了熔模铸造模料在室温下抗弯强度的测定方法。 本标准适用于测定熔模铸造模料室温弯曲脆断时的强度。
信息:ICS:77.180 CCS:J31 发布:1993-03-04 实施:1993-12-01
SY/T 4113.5-2019 管道防腐层性能试验方法 第5部分:抗弯曲测试
简介:
信息:ICS:75.200 CCS:E 04 发布:2019-11-04 实施:2020-05-01
ASTM C78/C78M-16 混凝土抗弯强度标准试验方法(使用三点加载简单梁)
简介:
信息:ICS:91.100.30 CCS: 发布:2016-07-01 实施:
GB/T 1936.2-1991 木材抗弯弹性模量测定方法
简介: 本标准规定了测定木材抗弯弹性模量的试验设备、试样、试验步骤和结果计算。 本标准适用于木材无疵小试样的抗弯弹性模量测定。
信息:ICS:79.010 CCS:B68 发布:1991-05-03 实施:1992-01-01
ASTM D1635/D1635M-19 用第三点荷载的简单梁测定水泥土抗弯强度的标准试验方法
简介:
信息:ICS:93.020 CCS: 发布:2019-11-01 实施:
ISO 17694-2016 鞋靴.鞋帮和鞋衬的试验方法.抗弯性
简介:
信息:ICS:61.060 CCS:Y78 发布:2016-05 实施:
GB/T 1936.1-1991 木材抗弯强度试验方法
简介: 本标准规定了测定木材抗弯强度的试验设备、试样、试验步骤和结果计算。 本标准适用于木材无疵小试样的抗弯强度试验。
信息:ICS:79.010 CCS:B68 发布:1991-05-03 实施:1992-01-01
ASTM C348-19 液压水泥砂浆抗弯强度标准试验方法
简介:
信息:ICS:91.100.10 CCS: 发布:2019-10-01 实施:
ISO 17694:2016 鞋类 - 鞋面和衬里的测试方法 - 抗弯曲性
简介:
信息:ICS:61.060 CCS: 发布:2016-04-29 实施:
GB/T 32027-2015 鞋类 抗弯曲性能 传送带耐折试验方法
简介:
信息:ICS: CCS: 发布: 实施:2016-04-01
ASTM C348-18 液压水泥砂浆抗弯强度标准试验方法
简介:
信息:ICS:91.100.10 CCS: 发布:2018-12-01 实施:
ASTM C293/C293M-16 混凝土抗弯强度标准试验方法(采用简单梁加载中心点)
简介:
信息:ICS:91.100.30 CCS: 发布:2016-04-15 实施:
KS M ISO 2493-2-2022 纸和纸板.抗弯曲性的测定.第2部分:泰伯型试验机
简介:
信息:ICS:85.060 CCS: 发布:2022-12-22 实施:
JB/T 13412-2018 熔模铸造型壳抗弯强度试验方法
简介:
信息:ICS:91.100.15 CCS:J31 发布:2018-04-30 实施:2018-12-01
BS EN 846-9-2016 圬工辅助砌块的试验方法.梁的抗剪力和抗弯力的测定
简介:
信息:ICS:91.060.10;91.080.30 CCS:P24 发布:2016-03-31 实施:2016-03-31
ASTM C1072-22 砌体抗弯粘结强度测量的标准试验方法
简介:
信息:ICS:91.060.10 CCS: 发布:2022-12-01 实施:
IEC 61747-40-6-2018 液晶显示装置.第40-6部分:移动设备用显示保护玻璃的机械试验.双轴抗弯强度(环磨损环)
简介:This part of IEC 61747 is a mechanical performance testing procedure for cover glass used in electronic flat panel displays in mobile devices. This document focuses on the measurement of surface fracture load after flaw introduction via grit particle abrasion. After abrasion, the retained surface fracture load is measured with the method documented in IEC 61747-40-4.
信息:ICS:31.120 CCS:L47 发布:2018-0201 实施:
EN 1052-2-2016 砖石工程的测试方法.第2部分:抗弯强度的测定
简介:This European standard specifies a method for determining the flexural strength of small masonry specimens for the two principal axes of loading. Guidance is given on the preparation of the specimens, the conditioning required before testing, the testing machine, the method of test, the method of calculation and the contents of the test report.
信息:ICS:91.080.30 CCS:P24 发布:2016-03 实施:
ASTM E518/E518M-22 砌体抗弯粘结强度的标准试验方法
简介:
信息:ICS:91.060.10 CCS: 发布:2022-12-01 实施:
BS EN 13892-9-2018 找平层材料的试验方法.抗弯和抗缩强度的测定
简介:
信息:ICS: CCS: 发布:2018-01-01 实施:2018-01-01
EN 1052-2-2016 砖石工程的测试方法.第2部分:抗弯强度的测定
简介:This European standard specifies a method for determining the flexural strength of small masonry specimens for the two principal axes of loading. Guidance is given on the preparation of the specimens, the conditioning required before testing, the testing machine, the method of test, the method of calculation and the contents of the test report.
信息:ICS:91.080.30 CCS:P24 发布:2016-03 实施:
ASTM D8453/D8453M-22 夹层结构开孔抗弯强度的标准实施规程
简介:
信息:ICS: CCS: 发布:2022-11-01 实施:
ASTM C78/C78M-18 混凝土抗弯强度标准试验方法(使用三点加载简单梁)
简介:
信息:ICS:91.100.30 CCS: 发布:2018-01-01 实施:
ISO 1288-5-2016 建筑用玻璃. 玻璃抗弯强度的测定. 第5部分: 试验表面积较小的扁平样品的同轴双环试验
简介:
信息:ICS:81.040.20 CCS:Q33 发布:2016-02 实施:
FZ/T 50059-2022 合成纤维 单丝抗弯曲性能试验方法
简介:
信息:ICS: CCS: 发布:2022-04-08 实施:2022-10-01
ASTM C1684-2018 环境温度下高级陶瓷抗弯强度的标准试验方法. 圆柱杆强度
简介: 4.1x00a0;This test method may be used for material development, quality control, characterization, and design data generation purposes. This test method is intended to be used with ceramics whose strength is 50 MPa (~7 ksi) or greater. The test method may also be used with glass test specimens, although Test Methods C158 is specifically designed to be used for glasses. This test method may be used with machined, drawn, extruded, and as-fired round specimens. This test method may be used with specimens that have elliptical cross section geometries. 4.2x00a0;The flexure strength is computed based on simple beam theory with assumptions that the material is isotropic and homogeneous, the moduli of elasticity in tension and compression are identical, and the material is linearly elastic. The average grain size should be no greater than one-fiftieth of the rod diameter. The homogeneity and isotropy assumptions in the standard rule out the use of this test for continuous fiber-reinforced ceramics. 4.3x00a0;Flexural strength of a group of test specimens is influenced by several parameters associated with the test procedure. Such factors include the loading rate, test environment, specimen size, specimen preparation, and test fixtures (1-3).3 This method includes specific specimen-fixture size combinations, but permits alternative configurations within specified limits. These combinations were chosen to be practical, to minimize experimental error, and permit easy comparison of cylindrical rod strengths with data for other configurations. Equations for the Weibull effective volume and Weibull effective surface are included. 4.4x00a0;The flexural strength of a ceramic material is dependent on both its inherent resistance to fracture and the size and severity of flaws in the material. Flaws in rods may be intrinsically volume-distributed throughout the bulk. Some of these flaws by chance may be located at or near the outer surface. Flaws may alternatively be intrinsically surface-distributed with all flaws located on the outer specimen surface. Grinding cracks fit the latter category. Variations in the flaws cause a natural scatter in strengths for a set of test specimens. Fractographic analysis of fracture surfaces, although beyond the scope of this standard, is highly recommended for all purposes, especially if the data will be used for design as discussed in Refs (3-5) and Practices C1322 and C1239. 4.5x00a0;The three-point test configuration exposes only a very small portion of the specimen to the maximum stress. Therefore, three-point flexural strengths are likely to be greater than four-point flexural strengths. Three-point flexure has some advantages. It uses simpler test fixtures, it is easier to adapt to high temperature and fracture toughness testing, and it is sometimes helpful in Weibull statistical studies. It also uses smaller force to break a specimen. It is also convenient for very short, stubby specimens whic ......
信息:ICS:81.060.30 CCS:Q32 发布:2018 实施:
ISO 1288-4-2016 建筑用玻璃. 玻璃抗弯强度的测定. 第4部分: 槽形玻璃的试验
简介:
信息:ICS:81.040.20 CCS:Q33 发布:2016-02 实施:
BS EN 12372-2022 天然石料的试验方法.集中负载下抗弯强度的测定
简介:This European Standard specifies a test method for determination of flexural strength under a concentrated load for natural stone. Both an identification and a technological product testing procedure are included.
信息:ICS:73.020;91.100.15 CCS:Q21 发布:2022-01-01 实施:2022-01-01
ASTM C1211-2018 高温下高级陶瓷抗弯强度的标准试验方法
简介: 4.1x00a0;This test method may be used for material development, quality control, characterization, and design data generation purposes. This test method is intended to be used with ceramics whose flexural strength is x223c;50 MPa (x223c;7 ksi) or greater. 4.2x00a0;The flexure stress is computed based on simple beam theory, with assumptions that the material is isotropic and homogeneous, the moduli of elasticity in tension and compression are identical, and the material is linearly elastic. The average grain size should be no greater than 1/50x00a0;of the beam thickness. The homogeneity and isotropy assumptions in the test method rule out the use of it for continuous fiber-reinforced composites for which Test Method C1341 is more appropriate. 4.3x00a0;The flexural strength of a group of test specimens is influenced by several parameters associated with the test procedure. Such factors include the testing rate, test environment, specimen size, specimen preparation, and test fixtures. Specimen and fixture sizes were chosen to provide a balance between the practical configurations and resulting errors as discussed in Test Method C1161, and Refs (1-3).4 Specific fixture and specimen configurations were designated in order to permit the ready comparison of data without the need for Weibull size scaling. 4.4x00a0;The flexural strength of a ceramic material is dependent on both its inherent resistance to fracture and the size and severity of flaws. Variations in these cause a natural scatter in test results for a sample of test specimens. Fractographic analysis of fracture surfaces, although beyond the scope of this test method, is highly recommended for all purposes, especially if the data will be used for design as discussed in Ref (4) and Practices C1322 and C1239. 4.5x00a0;This method determines the flexural strength at elevated temperature and ambient environmental conditions at a nominal, moderately fast testing rate. The flexural strength under these conditions may or may not necessarily be the inert flexural strength. Flexure strength at elevated temperature may be strongly dependent on testing rate, a consequence of creep, stress corrosion, or slow crack growth. If the purpose of the test is to measure the inert flexural strength, then extra precautions are required and faster testing rates may be necessary. Note 6:x00a0;Many ceramics are susceptible to either environmentally assisted slow crack growth or thermally activated slow crack growth. Oxide ceramics, glasses, glass ceramics, and ceramics containing boundary phase glass are particularly susceptible to slow crack growth. Time-dependent effects that are caused by environmental factors (for example, water as humidity in air) may be minimized through the use of in
信息:ICS:81.060.99;81.060.30 CCS:Q32 发布:2018 实施:
ISO 1288-2-2016 建筑用玻璃. 玻璃抗弯强度的测定. 第2部分: 试验表面积较大的扁平样品的同轴双环试验
简介:
信息:ICS:81.040.20 CCS:Q33 发布:2016-02 实施:
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