室温弯曲试验检测标准室温弯曲试验-中析研究所检测

(CMA)

(CNAS)

(ISO)

(高新技术企业)

室温弯曲试验相关标准参考信息

GB/T 5565.2-2017 橡胶和塑料软管及非增强软管柔性及挺性的测量第2部分：低于室温弯曲试验
简介：
信息：ICS：23.040.70 CCS：G42 发布：2017-09-07 实施：2018-04-01 00:00:00.0

ASTM C651-11 在室温下用四点加载法测定人造碳和石墨制品弯曲强度的标准试验方法
简介：
信息：ICS：71.100.99 CCS：发布：2011-06-01 实施：

ASTM C651-91(2000) 在室温下用四点加载法测定人造碳和石墨制品弯曲强度的标准试验方法
简介：
信息：ICS：71.100.99 CCS：发布：2000-04-10 实施：

GB/T 5565.1-2017 橡胶和塑料软管及非增强软管柔性及挺性的测量第1部分：室温弯曲试验
简介：
信息：ICS：23.040.70 CCS：G42 发布：2017-09-07 实施：2018-04-01 00:00:00.0

ASTM C651-91(2010)e1 在室温下用四点加载法测定人造碳和石墨制品弯曲强度的标准试验方法
简介：
信息：ICS：71.100.99 CCS：发布：2010-05-01 实施：

ASTM C1368-2000 室温下用恒定应力率弯曲试验测定高级陶瓷的裂纹缓慢生长系数的标准试验方法
简介：1.1 This test method covers the determination of slow crack growth (SCG) parameters of advanced ceramics by using constant stress-rate flexural testing in which flexural strength is determined as a function of applied stress rate in a given environment at ambient temperature. The strength degradation exhibited with decreasing applied stress rate in a specified environment is the basis of this test method which enables the evaluation of slow crack growth parameters of a material.Note 1--This test method is frequently referred to as "dynamic fatigue" testing (Refs (1-3)) in which the term" fatigue" is used interchangeably with the term "slow crack growth." To avoid possible confusion with the "fatigue" phenomenon of a material which occurs exclusively under cyclic loading, as defined in Definitions E1150, this test method uses the term "constant stress-rate testing" rather than "dynamic fatigue" testing.Note 2--In glass and ceramics technology, static tests of considerable duration are called "static fatigue" tests, a type of test designated as stress-rupture (See Definitions E1150).1.2 Values expressed in this test method are in accordance with the International System of Units (SI) and Practice E380.1.3 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
信息：ICS：81.060.30 (Advanced ceramics) CCS：Q32 发布：2000 实施：

ISO 22214:2006 精细陶瓷（高级陶瓷、高级工业陶瓷）——室温下单片陶瓷的循环弯曲疲劳试验方法
简介：
信息：ICS：81.060.30 CCS：发布：2006-02-07 实施：

CNS 14315-1999 精密陶瓷室温弯曲疲劳试验法
简介：本标准规定在室温大气中实施之精密陶瓷三点弯曲，四点弯曲疲劳试验法。
信息：ICS：81.060.10 CCS：发布：1999-06-28 实施：1999-06-28

ISO 22214-2006 精细陶瓷(高级陶瓷、高级工业陶瓷).室温下单片陶瓷周期性弯曲疲劳的试验方法
简介：This International Standard specifies a test method for four-point cyclic bending fatigue of fine ceramics thatare carried out in the air at room temperature. This test may be used as a pass/fail test for materialqualification purposes, or for determination of the overall fatigue behaviour at several different stress levels.
信息：ICS：81.060.30 CCS：Q32 发布：2006-02 实施：

HB 5152-1996 金属室温旋转弯曲疲劳试验方法
简介：本标准规定了测定金属材料旋转弯曲疲劳性能的试验设备、试样及制备、试验程序、数据处理和表达方式。　　本标准适用于［公式］空气条件下，测定金属材料圆形横截面试样在旋转状态下承受弯曲力矩时的疲劳性能。
信息：ICS： CCS：H23 发布：1996-09-13 实施：1996-10-01

ISO 10619-2:2021 橡胶和塑料软管及非增强软管柔性及挺性的测量第2部分:低于室温弯曲试验
简介：
信息：ICS：23.040.70 CCS：发布：2021-06-28 实施：

ASTM C1368-2006 利用室温下用常应力率弯曲试验测定高级陶瓷的裂纹缓慢生长参数的标准试验方法
简介：1.1 This test method covers the determination of slow crack growth (SCG) parameters of advanced ceramics by using constant stress-rate flexural testing in which flexural strength is determined as a function of applied stress rate in a given environment at ambient temperature. The strength degradation exhibited with decreasing applied stress rate in a specified environment is the basis of this test method which enables the evaluation of slow crack growth parameters of a material.Note 1This test method is frequently referred to as "dynamic fatigue" testing (Refs ()) in which the term "fatigue" is used interchangeably with the term "slow crack growth." To avoid possible confusion with the "fatigue" phenomenon of a material which occurs exclusively under cyclic loading, as defined in Definitions E 1823, this test method uses the term "constant stress-rate testing" rather than "dynamic fatigue" testing.Note 2In glass and ceramics technology, static tests of considerable duration are called "static fatigue" tests, a type of test designated as stress-rupture (See Definitions E 1823).1.2 Values expressed in this test method are in accordance with the International System of Units (SI) and IEEE/ASTM SI 10.This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
信息：ICS：81.060.30 (Advanced ceramics) CCS：Q32 发布：2006 实施：

DS/ENV 658-5-1993 高级工业陶瓷．室温下陶瓷复合材料的机械特性．第5部分：利用（三点）短跨距弯曲试验法测定剪切强度
简介：This Part of ENV 658 specifies the conditions for the determination of the interlaminar shear strehgth matrix composite materials with continuous fibre reinforcement at ambient temperature, by subjecting a test speciimen to a short-span, three-point, bend test. The method applies to unidirectionally and bidirectionally reinforced ceramic matrix composites. as well as to tridirectional composites with weak reinforcement in the third direction.NOTE : Two other methods for the determination of shear strength are given in further Parts of ENV 658. The interlaminar shear characteristics can vary significantly depending on specimen preparation and dimensions, rate of application of the test force, surface condition, etc. Comparison of test results is only valid for tests performed under identical conditions.
信息：ICS： CCS：发布：1993-11-22 实施：1993-11-22

ASTM C651-20 在室温下用四点加载法测定人造碳和石墨制品弯曲强度的标准试验方法
简介：
信息：ICS：71.100.99 CCS：发布：2020-05-01 实施：

NF B41-208-2005 高级工业陶瓷.室温下块体陶瓷的机械特性.第3部分:从恒定应力率弯曲强度试验中测定亚临界断裂增长系数
简介：
信息：ICS：81.060.30 CCS：Q32 发布：2005-10-01 实施：2005-10-05

DD ENV 658-5-1993 高技术陶瓷.陶瓷复合物室温下的机械性能.第5部分:小跨距弯曲试验法抗剪强度测定(三点法)
简介：
信息：ICS： CCS：Q32 发布：1993-01 实施：

ASTM D7972-14(2020) 在室温下使用三点负载制造碳和石墨制品的弯曲强度的标准试验方法
简介：
信息：ICS：71.100.99 CCS：发布：2020-05-01 实施：

ASTM C651-91(2005)e1 在室温下用四点加载法测定人造碳和石墨制品弯曲强度的标准试验方法
简介：
信息：ICS：71.100.99 CCS：发布：2005-05-01 实施：

GOST 9454-1978 金属.低温、室温和高温时撞击弯曲试验方法
简介：Настоящий стандарт распространяется на черные и цветные металлы и сплавы и устанавливает метод испытания на ударный изгиб при температур
信息：ICS：77.040.10 CCS：发布：1978 实施：1979-01-01

ISO 23242-2020 精细陶瓷（高级陶瓷高级工业陶瓷）用三点或四点弯曲法测定整体陶瓷薄板在室温下弯曲强度的试验方法
简介：
信息：ICS：81.060.30 CCS：发布：2020-02-04 实施：

ASTM C1576-2005(2017) 通过室温恒压力弯曲试验(应力破裂)测定高级陶瓷慢裂纹生长参数的标准试验方法
简介：4.1x00a0;The service life of many structural ceramic components is often limited by the subcritical growth of cracks. This test method provides an approach for appraising the relative slow crack growth susceptibility of ceramic materials under specified environments at ambient temperature. Furthermore, this test method may establish the influences of processing variables and composition on slow crack growth as well as on strength behavior of newly developed or existing materials, thus allowing tailoring and optimizing material processing for further modification. In summary, this test method may be used for material development, quality control, characterization, design code or model verification, and limited design data generation purposes. Note 4:x00a0;Data generated by this test method do not necessarily correspond to crack velocities that may be encountered in service conditions. The use of data generated by this test method for design purposes, depending on the range and magnitude of applied stresses used, may entail extrapolation and uncertainty. 4.2x00a0;This test method is related to Test Method C1368 (x201c;constant stress-rate flexural testingx201d;), however, C1368 uses constant stress rates to determine corresponding flexural strengths whereas this test method employs constant stress to determine corresponding times to failure. In general, the data generated by this test method may be more representative of actual service conditions as compared with those by constant stress-rate testing. However, in terms of test time, constant stress testing is inherently and significantly more time consuming than constant stress rate testing. 4.3x00a0;The flexural stress computation in this test method is based on simple elastic beam theory, with the 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 grain size should be no greater than one-fiftieth (1/50x00a0;) of the beam depth as measured by the mean linear intercept method (Test Methods E112). In cases where the material grain size is bimodal or the grain size distribution is wide, the limit should apply to the larger grains. 4.4x00a0;The test specimen sizes and test fixtures have been selected in accordance with Test Methods C1161 and C1368, which provides a balance between practical configurations and resulting errors, as discussed in Ref (4, 5). 4.5x00a0;The data are evaluated by regression of log applied stress versus log time to failure to the experimental data. The recommendation is to determine the slow crack growth parameters by applying the power law crack velocity function. For derivation of this, and for alternative crack velocity functions, see Appendix X1. Note 5:x00a0;
信息：ICS：81.060.30 CCS：Q32 发布：2005 实施：

简介： 信息：

KS L ISO 14704-2018 精细陶瓷（先进陶瓷先进技术陶瓷） - 室温下整体陶瓷的弯曲强度试验方法
简介：
信息：ICS：81.060.30 CCS：发布：2018-12-20 实施：

ASTM C1576-2005 室温下用恒应力弯曲试验(应力破裂)测定高级陶瓷慢速裂纹增长参数的标准试验方法
简介：1.1 This test method covers the determination of slow crack growth (SCG) parameters of advanced ceramics by using constant stress flexural testing in which time to failure of flexure test specimens is determined in four-point flexure as a function of constant applied stress in a given environment at ambient temperature. In addition, test specimen fabrication methods, test stress levels, data collection and analysis, and reporting procedures are addressed. The decrease in time to failure with increasing applied stress in a specified environment is the basis of this test method that enables the evaluation of slow crack growth parameters of a material. The preferred analysis in the present method is based on a power law relationship between crack velocity and applied stress intensity; alternative analysis approaches are also discussed for situations where the power law relationship is not applicable.Note 18212;The method in this test method is frequently referred to as static fatigue or stress-rupture testing (1-3)178; in which the term fatigue is used interchangeably with the term slow crack growth. To avoid possible confusion with the fatigue phenomenon of a material that occurs exclusively under cyclic loading, as defined in Terminology E 1823, this test method uses the term constant stress testing rather than static fatigue testing.1.2 This test method applies primarily to monolithic advanced ceramics that are macroscopically homogeneous and isotropic. This test method may also be applied to certain whisker- or particle-reinforced ceramics as well as certain discontinuous fiber-reinforced composite ceramics that exhibit macroscopically homogeneous behavior. Generally, continuous fiber ceramic composites do not exhibit macroscopically isotropic, homogeneous, continuous behavior, and the application of this test method to these materials is not recommended.1.3 This test method is intended for use with various test environments such as air, other gaseous environments and liquids.1.4 The values stated in SI units are to be regarded as the standard and in accordance with IEEE/ASTM SI 10 Standard.1.5 This test method may involve hazardous materials, operations, and equipment. This standard does not purport to address all of the safety concerns associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
信息：ICS：81.060.30 (Advanced ceramics) CCS：Q30 发布：2005 实施：

简介： 信息：

ISO 17167-2018 精细陶瓷（高级陶瓷、高级工业陶瓷）.室温下单片陶瓷的机械性能.通过环对环试验测定弯曲强度
简介：
信息：ICS：81.060.30 CCS：发布：2018-11-08 实施：

ISO 14704 CORR 1-2004 精细陶瓷(高级陶瓷、高级工业陶瓷).室温下块体陶瓷弯曲强度的试验方法.技术勘误1
简介：
信息：ICS：81.060.30 CCS：Q32 发布：2004-01 实施：

简介： 信息：

JC/T 2405-2017 室温下连续纤维增强陶瓷基复合材料弯曲强度试验方法
简介：
信息：ICS：81.060.30 CCS：Q32 发布：2017-04-12 实施：2017-10-01

JIS K6330-4-2003 橡胶和塑料软管的测试方法.第4部分:低于室温的弯曲试验
简介：この規格は，ゴム及びプラスチックホース(以下，ホースという。)の低温柔軟性を測定する三つの試験方法について規定する。
信息：ICS：23.040.70;83.140.40 CCS：G33;G42 发布：2003-05-20 实施：

简介： 信息：

JIS R1663-2017 连续纤维增强陶瓷基质复合材料在室温下弯曲强度的试验方法
简介：
信息：ICS：81.060.30 CCS：Q32 发布：2017-03-21 实施：

NF B43-205-2003 先进工艺陶瓷.室温下陶瓷复合材料的机械性能.第5部分:用短跨距弯曲试验法测定层间的剪切强度(三点法)
简介：
信息：ICS：81.060.30 CCS：Q32 发布：2003-03-01 实施：2003-03-20

简介： 信息：

ASTM C651-15 在室温下用四点加载法测定人造碳和石墨制品弯曲强度的标准试验方法
简介：
信息：ICS：71.100.99 CCS：发布：2015-10-01 实施：

DIN EN 658-5-2003 高级工业陶瓷.陶瓷复合材料室温机械性能.第5部分:通过瞬间弯曲试验测定内层剪切强度
简介：This part of EN 658 specifies the conditions for the determination of the interlaminar shear strength matrix composite materials with continuous fibre reinforcement at ambient temperature, by subjecting a test specimen to a short-span, three points, bend test. The method applies to unidirectionally (1D) and bidirectionally (2D) and tridirectionally (xD, with 2 * 3) as defined in ENV 13233.
信息：ICS：81.060.30 CCS：Q32 发布：2003-03 实施：

简介： 信息：

ASTM D7972-14 在室温下使用三点负载制造碳和石墨制品的弯曲强度的标准试验方法
简介：
信息：ICS：71.100.99 CCS：发布：2014-12-01 实施：

BS EN 658-5-2003 高级工业陶瓷.室温下陶瓷复合材料的机械性能.利用短跨度弯曲试验(三点)测定层间抗剪强度
简介：This part of this European Standard specifies the conditions for determination of the interlaminar shear strength ofceramic matrix composite materials with continuous fibre reinforcement at room temperature, by subjecting a testspecimen to a short-span bend test (three points). This method applies to all ceramic matrix composites with acontinuous fibre reinforcement unidirectional (1D) and bidirectional (2D) and tridirectional (xD, with 2 < x < 3) asdefined in ENV 13233.Two other methods for the determination of shear strength are given in further parts of EN 658.
信息：ICS：81.060.30 CCS：Q32 发布：2003-02-28 实施：2003-02-28

简介： 信息：

ASTM C651-13 在室温下用四点加载法测定人造碳和石墨制品弯曲强度的标准试验方法
简介：
信息：ICS：71.100.99 CCS：发布：2013-10-01 实施：

BS EN 658-5-2002 高级工业陶瓷.室温下陶瓷复合材料的机械性能.利用短跨度弯曲试验(三点)测定层间抗剪强度
简介：This part of this European Standard specifies the conditions for determination of the interlaminar shear strength of ceramic matrix composite materials with continuous fibre reinforcement at room temperature, by subjecting a test specimen to a short-span bend test (three points). This method applies to all ceramic matrix composites with a continuous fibre reinforcement unidirectional (1D) and bidirectional (2D) and tridirectional (xD, with 2 < x < 3) as defined in ENV 13233.Two other methods for the determination of shear strength are given in further parts of EN 658.NOTE 1 The interlaminar shear characteristics can vary significantly depending on test specimen preparation and dimensions, rate of application of the test force, surface condition, etc..NOTE 2 However, results obtained by this part of EN 658 cannot be compared with results obtained by the two other methods.NOTE 3 Care should be exercised in interpreting the results of the method to obtain absolute values of the interlaminar shear strength of ceramic matrix composites for design purposes.
信息：ICS：81.060.30 CCS：Q32 发布：2003-02-28 实施：2003-02-28

简介： 信息：

ISO 14610:2012 精细陶瓷（高级陶瓷、高级工业陶瓷）——室温下多孔陶瓷弯曲强度的试验方法
简介：
信息：ICS：81.060.30 CCS：发布：2012-08-02 实施：

NF L52-250-405-2002 航空航天系列.飞机用电缆.试验方法.第405部分:室温下的弯曲试验
简介：
信息：ICS：49.060 CCS：V25 发布：2002-11-01 实施：2002-11-05

简介： 信息：

BS ISO 28704-2011 精细陶瓷(高级陶瓷和高科技陶瓷).室温下多孔陶瓷循环弯曲疲劳的试验方法
简介：
信息：ICS：81.060.30 CCS：Q32 发布：2011-09-30 实施：2011-09-30

ASTM C1161-2002c(2008) 高级陶瓷在室温下的弯曲强度的标准试验方法
简介：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 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 one fiftieth of the beam thickness. The homogeneity and isotropy assumption in the standard rule out the use of this test for continuous fiber-reinforced ceramics. 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. Specimen sizes and fixtures were chosen to provide a balance between practical configurations and resulting errors, as discussed in MIL-STD 1942 (MR) and Refs (1) and (2). Specific fixture and specimen configurations were designated in order to permit ready comparison of data without the need for Weibull-size scaling. 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 standard, is highly recommended for all purposes, especially if the data will be used for design as discussed in MIL-STD-1942 (MR) and Refs (2x2013;5) and Practices C 1322 and C 1239. 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 much 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. However, four-point flexure is preferred and recommended for most characterization purposes. This method determines the flexural strength at ambient temperature and environmental conditions. The flexural strength under ambient conditions may or may not necessarily be the inert flexural strength. Note 78212;time dependent effects may be minimized through the use of inert testing atmosphere such as dry nitrogen gas, oil, or vacuum. Alternatively, testing rates faster than specified in this standard may be used. Oxide ceramics, glasses, and ceramics containing boundary phase glass are susceptible to slow crack growth even at room temperature. Water, either in the form of liquid or as humidity in air, can have a significant effect, even at the rates specified in this standard. On the other hand, many ceramics such as boron carbide, silicon carbide, aluminum nitride and many silicon nitrides have no sensitivity to slow crack growth at room temperature and the flexural strength in laboratory ambient conditions is the inert flexural strength. 1.1 This test method covers the determination of flexural strength of advanced ceramic materials at ambient temperature. Four-pointx2013; x00BC; point and three-point loadings with prescribed spans are the standard. Rectangular specimens of prescribed cross-section sizes are used with specified features in prescribed specimen-fixture combinations. 1.2 The values stated in SI units are to be regarded as the standard. The values given in ......
信息：ICS：81.060.20 (Ceramic products) CCS：发布：2002 实施：

简介： 信息：

ASTM C1368-2001 室温下用恒定应力率弯曲试验测定高级陶瓷的裂纹缓慢生长系数的标准试验方法
简介：1.1 This test method covers the determination of slow crack growth (SCG) parameters of advanced ceramics by using constant stress-rate flexural testing in which flexural strength is determined as a function of applied stress rate in a given environment at ambient temperature. The strength degradation exhibited with decreasing applied stress rate in a specified environment is the basis of this test method which enables the evaluation of slow crack growth parameters of a material.Note 1--This test method is frequently referred to as "dynamic fatigue" testing (Refs (1-3)) in which the term" fatigue" is used interchangeably with the term "slow crack growth." To avoid possible confusion with the "fatigue" phenomenon of a material which occurs exclusively under cyclic loading, as defined in Definitions E1150, this test method uses the term "constant stress-rate testing" rather than "dynamic fatigue" testing.Note 2--In glass and ceramics technology, static tests of considerable duration are called "static fatigue" tests, a type of test designated as stress-rupture (See Definitions E1150).1.2 Values expressed in this test method are in accordance with the International System of Units (SI) and Practice E380.1.3 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
信息：ICS：81.060.30 (Advanced ceramics) CCS：Q32 发布：2001 实施：

简介： 信息：

ISO 28704:2011 精细陶瓷（高级陶瓷、高级工业陶瓷）——室温下多孔陶瓷的循环弯曲疲劳试验方法
简介：
信息：ICS：81.060.30 CCS：发布：2011-08-05 实施：

ISO 14704:2000 精细陶瓷（高级陶瓷、高级工业陶瓷）.室温下单片陶瓷弯曲强度的试验方法
简介：
信息：ICS：81.060.30 CCS：发布：2000-08-24 实施：

简介： 信息：

ISO 28704-2011 精细陶瓷(高级陶瓷,高技术陶瓷).室温下多孔陶瓷的循环弯曲疲劳试验方法
简介：
信息：ICS：81.060.30 CCS：Q32 发布：2011-08 实施：

ISO 14704-2000 精细陶瓷(高级陶瓷、高技术陶瓷) 室温下块体陶瓷弯曲强度的试验方法
简介：This International Standard describes the method of test for determining the flexural strength of monolithic fine ceramics and whisker- or particulate-reinforced ceramic composites at room temperature. Flexural strength is one measure of the uniaxial strength of a fine ceramics. This test method may be used for materials development, quality control, characterization and design data generation purposes.
信息：ICS：81.060.30 CCS：Q32 发布：2000-08 实施：

简介： 信息：