旋转弯曲疲劳检测标准
原创来源:北检院 发布时间:2023-02-08 06:16:15 点击数:
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旋转弯曲疲劳检测标准相关标准参考信息
GB/T 4337-2015 金属材料 疲劳试验 旋转弯曲方法
简介:本标准规定了金属材料旋转弯曲疲劳试验方法。本标准适用于金属材料在室温和高温空气中试样旋转弯曲的条件下进行的疲劳试验,其他环境(如腐蚀)下的旋转弯曲疲劳试验也可参照本标准执行。
信息:ICS:77.040.10 CCS:H22 发布:2015-09-11 实施:2016-06-01
ISO 1143-2010 金属材料.旋转棒弯曲疲劳试验
简介:This International Standard specifies the method for rotating bar bending fatigue testing of metallic materials. The tests are conducted at room temperature or elevated temperature in air, the specimen being rotated.
信息:ICS:77.040.10 CCS:H22 发布:2010-11 实施:2010-11-01
简介: 信息:
GB/T 4337-2008 金属材料.疲劳试验.旋转弯曲方法
简介:本标准规定了金属材料旋转棒弯曲疲劳试验方法。本标准适用于金属材料在室温和高温空气中试样旋转弯曲的条件下进行的疲劳试验,其他环境(如腐蚀)下的也可对照本标准执行。
信息:ICS:77.040.10 CCS:H22 发布:2008-08-05 实施:2009-04-01
ISO 1143:2010 金属材料——旋转杆弯曲疲劳试验
简介:
信息:ICS:77.040.10 CCS: 发布:2010-10-21 实施:
简介: 信息:
GB/T 7733-1987 金属旋转弯曲腐蚀疲劳试验方法
简介:本标准适用于腐蚀条件下,测定金属圆形横截面试样在旋转状态下承受弯矩时的疲劳性能。 注:本标准亦可供其他类型应力作用下的腐蚀疲劳试验参考。
信息:ICS:77.040.10 CCS:H23 发布:1987-05-12 实施:1988-03-01
KS B ISO 1143-2003 金属材料.旋转棒弯曲疲劳试验
简介:이 규격은 공칭 지름이 5 mm 에서 12.5 mm 사이로서 응력 집중부가 없는 봉재
信息:ICS:77.040.10 CCS:H20 发布:2003-11-05 实施:2003-11-05
简介: 信息:
GB/T 4337-1984 金属旋转弯曲疲劳试验方法
简介:本标准适用于15~35℃空气条件下,测定金属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:77.040.10 CCS:H22 发布:1984-04-09 实施:1985-03-01
KS B ISO 1143-2003 金属材料.旋转棒弯曲疲劳试验
简介:이 규격은 공칭 지름이 5 mm 에서 12.5 mm 사이로서 응력 집중부가 없는 봉재
信息:ICS:77.040.10 CCS:H20 发布:2003-11-05 实施:2003-11-05
简介: 信息:
GB/T 2107-1980 金属高温旋转弯曲疲劳试验方法
简介:本标准适用于金属圆形横截面试样在规定温度及旋转状态下承受弯曲力矩的疲劳试验。此试验系用来测定金属的高温旋转弯曲疲劳性能。
信息:ICS:77.040.10 CCS:H22 发布:1980-12-09 实施:1982-08-01
KS B ISO 1143-2003(2018) 金属材料 - 旋转弯曲疲劳试验
简介:
信息:ICS:77.040.10 CCS: 发布:2003-11-05 实施:
简介: 信息:
ASTM E2948-22 实心圆细钢丝旋转弯曲疲劳试验的标准试验方法
简介:
信息:ICS:77.140.65 CCS: 发布:2022-02-01 实施:
JIS Z2286-2003 金属材料高温旋转弯曲疲劳试验方法
简介:この規格は,高サイクル疲労領域を対象として,1 000 ℃以下の高温大気中で行う標準試験片によろ金属材料の回転曲げ疲労試験方法について規定する。
信息:ICS:77.040.10 CCS:H23 发布:2003-03-20 实施:
简介: 信息:
T/CSTM 00820-2022 民用飞机液压导管及连接件旋转弯曲疲劳试验方法
简介:本文件规定了民用飞机液压导管及连接件旋转弯曲疲劳试验方法。本文件适用于各类可拆卸式和不可拆卸式的液压导管及连接件旋转弯曲疲劳试验。
信息:ICS:23.100.40 CCS:C374 发布:2022-01-25 实施:2022-01-28
SNI 07-6524-2001 将金属进行弯曲旋转的疲劳测试方法
简介:
信息:ICS:77.040.10 CCS: 发布:2001 实施:
简介: 信息:
BS ISO 1143-2021 金属材料. 旋转钢筋弯曲疲劳测试
简介:
信息:ICS:77.040.10 CCS:H22 发布:2021-08-10 实施:2021-08-10
HB 5153-1996 金属高温旋转弯曲疲劳试验方法
简介:本标准规定了在高温条件下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。 本标准适用于高温空气条件下,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
简介: 信息:
ISO 1143:2021 金属材料 - 旋转棒弯曲疲劳试验
简介:
信息:ICS:77.040.10 CCS: 发布:2021-07-30 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
简介: 信息:
ISO 1143-2021 金属材料. 旋转棒弯曲疲劳试验
简介:
信息:ICS:77.040.10 CCS:H22 发布:2021-07-00 实施:
JJG 652-1990 旋转纯弯曲疲劳试验机检定规程
简介:
信息:ICS: CCS:A53 发布:1990 实施:1991-01-01
简介: 信息:
ASTM E2948-16a 实心圆细导线旋转弯曲疲劳试验的标准试验方法
简介:
信息:ICS:77.140.65 CCS: 发布:2016-10-01 实施:
NF A03-402-1983 钢铁.旋转弯曲疲劳试验
简介:
信息:ICS:77.040.10 CCS:H26 发布:1983-08-01 实施:1983-08-08
简介: 信息:
ASTM E2948-16e1 实心圆细导线旋转弯曲疲劳试验的标准试验方法
简介:
信息:ICS:77.140.65 CCS: 发布:2016-05-01 实施:
DIN 50113-1982 金属材料的检验.旋转棒材弯曲疲劳试验
简介:Testing of metallic materials; rotating bending fatigue testEssais des matériaux métalliques; essai de fatigue par flexion rotativeZusammenhang mit der von der International Organization for Standardization (ISO) herausgegebenen Internationalen Norm ISO
信息:ICS:77.040.10 CCS:H23 发布:1982-03 实施:
简介: 信息:
ASTM E2948-2016e1 实心圆细钢丝的旋转弯曲疲劳试验的标准试验方法
简介:5.1x00a0;A method for obtaining fatigue strain (stress) at a specific life is of interest to the wire manufacturer, designer and consumer. The method is useful in production control, material acceptance and determination of the fatigue strain (stress) of the wire at a specific fatigue life, that is, fatigue strength. Rotating bending fatigue testing of small diameter solid round wire is possible by looping a specimen of predetermined length through an arc of 90x00b0; to 180x00b0;. The bending strain (stress) is determined from the geometry of the loop thusly formed. The methodology is capable of high frequency testing provided the temperature of the test article is constant and there is no adiabatic heating of the wire. A constant temperature can be maintained by immersing the specimen in a constant temperature fluid bath or test media. This makes it practical to quickly test a sufficient number of specimens to provide a statistical frequency distribution or survival probability distribution of fatigue life at a given strain (stress). Fatigue life information is useful to ascertain wire in-service durability and to assess, for example, the effects of melt practice and cold work processing. 1.1x00a0;This test method is intended as a procedure for the performance of rotating bending fatigue tests of solid round fine wire to obtain the fatigue strength of metallic materials at a specified life in the fatigue regime where the strains (stresses) are predominately and nominally linear elastic. This test method is limited to the fatigue testing of small diameter solid round wire subjected to a constant amplitude periodic strain (stress). The methodology can be useful in assessing the effects of internal material structure, such as inclusions, in melt technique and cold work processing studies. However, there is a caveat. The strain, due to the radial strain gradient imposed by the test methodology, is a maximum at the surface and zero at the centerline. Thus the test method may not seek out the x201c;weakest link,x201d; largest inclusions, that govern uniaxial high cycle fatigue life where the strain is uniform across the cross section and where fatigue damage initiates at a subsurface location (1-5).2 Also, pre-strain, which can influence fatigue life, is not included in this test method. Note 1:x00a0;The following documents, although not specifically mentioned, are considered sufficiently important to be listed in this test method: ASTM STP 566 Handbook of Fatigue Testing ASTM STP 588 Manual on Statistical Planning and Analysis for Fatigue Experiments ASTM STP 731 Tables for Estimating Median Fatigue Limits (6-8) 1.2x00a0;The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.
信息:ICS:77.140.65 CCS: 发布:2016 实施:
SIS SS 11 23 90-1979 金属材料.旋转弯曲疲劳试件,阿尔法类型
简介:
信息:ICS: CCS: 发布:1979-7-1 实施:
简介: 信息:
ASTM E2948-2016 实心圆细钢丝的旋转弯曲疲劳试验的标准试验方法
简介:5.1x00a0;A method for obtaining fatigue strain (stress) at a specific life is of interest to the wire manufacturer, designer and consumer. The method is useful in production control, material acceptance and determination of the fatigue strain (stress) of the wire at a specific fatigue life, that is, fatigue strength. Rotating bending fatigue testing of small diameter solid round wire is possible by looping a specimen of predetermined length through an arc of 90x00b0; to 180x00b0;. The bending strain (stress) is determined from the geometry of the loop thusly formed. The methodology is capable of high frequency testing provided the temperature of the test article is constant and there is no adiabatic heating of the wire. A constant temperature can be maintained by immersing the specimen in a constant temperature fluid bath or test media. This makes it practical to quickly test a sufficient number of specimens to provide a statistical frequency distribution or survival probability distribution of fatigue life at a given strain (stress). Fatigue life information is useful to ascertain wire in-service durability and to assess, for example, the effects of melt practice and cold work processing. 1.1x00a0;This test method is intended as a procedure for the performance of rotating bending fatigue tests of solid round fine wire to obtain the fatigue strength of metallic materials at a specified life in the fatigue regime where the strains (stresses) are predominately and nominally linear elastic. This test method is limited to the fatigue testing of small diameter solid round wire subjected to a constant amplitude periodic strain (stress). The methodology can be useful in assessing the effects of internal material structure, such as inclusions, in melt technique and cold work processing studies. However, there is a caveat. The strain, due to the radial strain gradient imposed by the test methodology, is a maximum at the surface and zero at the centerline. Thus the test method may not seek out the x201c;weakest link,x201d; largest inclusions, that govern uniaxial high cycle fatigue life where the strain is uniform across the cross section and where fatigue damage initiates at a subsurface location (1-5).2 Also, pre-strain, which can influence fatigue life, is not included in this test method. Note 1:x00a0;The following documents, although not specifically mentioned, are considered sufficiently important to be listed in this test method: ASTM STP 566 Handbook of Fatigue Testing ASTM STP 588 Manual on Statistical Planning and Analysis for Fatigue Experiments ASTM STP 731 Tables for Estimating Median Fatigue Limits (6-8) 1.2x00a0;The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.
信息:ICS:77.140.65 CCS: 发布:2016 实施:
ISO 1143:1975 金属.旋转杆弯曲疲劳试验
简介:
信息:ICS:77.040.10 CCS: 发布:1975-11-01 实施:
简介: 信息:
ASTM E2948-14 实心圆细导线旋转弯曲疲劳试验的标准试验方法
简介:
信息:ICS:77.140.65 CCS: 发布:2014-05-01 实施:
ISO 1143-1975 金属 旋转棒弯曲疲劳试验
简介:The tests are made to determine fatigue properties. They are carried out at room temperature, in air, the test piece being rotated. Test piece diameters are between 5 mm and 12,5 mm. The results may be affected by atmospheric conditions.
信息:ICS:77.040.10 CCS:H22 发布:1975-11 实施:
简介: 信息:
ASTM E2948-2014 实心圆细线旋转弯曲疲劳试验的标准试验方法
简介:5.1x00a0;A method for obtaining fatigue strain (stress) at a specific life is of interest to the wire manufacturer, designer and consumer. The method is useful in production control, material acceptance and determination of the fatigue strain (stress) of the wire at a specific fatigue life, that is, fatigue strength. Rotating bending fatigue testing of small diameter solid round wire is possible by looping a specimen of predetermined length through an arc of 90x00b0; to 180x00b0;. The bending strain (stress) is determined from the geometry of the loop thusly formed. The methodology is capable of high frequency testing provided the temperature of the test article is constant and there is no adiabatic heating of the wire. A constant temperature can be maintained by immersing the specimen in a constant temperature fluid bath or test media. This makes it practical to quickly test a sufficient number of specimens to provide a statistical frequency distribution or survival probability distribution of fatigue life at a given strain (stress). Fatigue life information is useful to ascertain wire in-service durability and to assess, for example, the effects of melt practice and cold work processing. 1.1x00a0;This test method is intended as a procedure for the performance of rotating bending fatigue tests of solid round fine wire to obtain the fatigue strength of metallic materials at a specified life in the fatigue regime where the strains (stresses) are predominately and nominally linear elastic. This test method is limited to the fatigue testing of small diameter solid round wire subjected to a constant amplitude periodic strain (stress). The methodology can be useful in assessing the effects of internal material structure, such as inclusions, in melt technique and cold work processing studies. However, there is a caveat. The strain, due to the radial strain gradient imposed by the test methodology, is a maximum at the surface and zero at the centerline. Thus the test method may not seek out the x201c;weakest link,x201d; largest inclusions, that govern uniaxial high cycle fatigue life where the strain is uniform across the cross section and where fatigue damage initiates at a subsurface location (1-5).2 Also, pre-strain, which can influence fatigue life, is not included in this test method. Note 1:x00a0;The following documents, although not specifically mentioned, are considered sufficiently important to be listed in this test method: ASTM STP 566 Handbook of Fatigue Testing ASTM STP 588 Manual on Statistical Planning and Analysis for Fatigue Experiments ASTM STP 731 Tables for Estimating Median Fatigue Limits (6-8) 1.2x00a0;The values stated in either SI units or inch-pound units are to be regarded separately as standard. The values stated in each system may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in non-conformance with the standard.
信息:ICS:77.140.65 (Steel wire, wir ropes and link chains) CCS: 发布:2014 实施:
ASTM E2948-16 实心圆细导线旋转弯曲疲劳试验的标准试验方法
简介:
信息:ICS:77.140.65 CCS:/ 发布:0000-00-00 实施:0000-00-00
简介: 信息:
JJG 652-2012 旋转纯弯曲疲劳试验机检定规程
简介:本规程适用于旋转纯弯曲疲劳试验机(以下简称为试验机)的首次检定、后续检定和使用中检查。旋转纯弯曲疲劳试验机主要包括四点受力式旋转纯弯曲疲劳试验机、悬臂式旋转纯弯曲疲劳试验机以及高温旋转纯弯曲疲劳试验机。其他类型的旋转弯曲疲劳试验机可参照本规程进行检定。
信息:ICS: CCS:N13 发布:2012-12-03 实施:2013-06-03
简介: 信息:
简介: 信息:
JJF 1315.2-2011 疲劳试验机型式评价大纲 第2部分:旋转纯弯曲疲劳试验机
简介:本大纲适用于旋转纯弯曲疲劳试验机(以下简称为试验机)的型式评价。旋转纯弯曲疲劳试验机主要包括四点受力式旋转纯弯曲疲劳试验机、悬臂式旋转纯弯曲疲劳试验机以及高温旋转纯弯曲疲劳试验机。
信息:ICS: CCS:N71 发布:2011-09-20 实施:2011-12-20
简介: 信息:
简介: 信息:
BS ISO 1143-2010 金属材料.旋转钢筋弯曲疲劳测试
简介:
信息:ICS:77.040.10 CCS:H22 发布:2010-12-31 实施:2010-12-31
简介: 信息:
简介: 信息:
BS ISO 1143-2010 金属材料.旋转钢筋弯曲疲劳测试
简介:
信息:ICS:77.040.10 CCS:H22 发布:2010-12-31 实施:2010-12-31
简介: 信息:
简介: 信息:
检测流程
1、确认客户委托,寄样。
2、到样之后,确定具体的试验项目以及试验方案。
3、实验室报价。
4、签订保密协议,进行试验。
5、完成试验,确定检测报告
6、后期技术服务
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