环拉伸检测标准环拉伸检测标准-中析研究所检测

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(ISO)

(高新技术企业)

环拉伸检测标准相关信息

GB/T 25048-2019 金属材料管环拉伸试验方法
简介：
信息：ICS：77.040.10 CCS：H23 发布：2019-08-30 00:00:00.0 实施：2020-07-01 00:00:00.0

STAS ISO 8496-1992 金属材料．管．环拉伸测试
简介：Prezentul Standard interna?ional specific? o metod? de ?ncercare la trac?iune pe un inel t?iat din ?eava av?nd ca scop eviden?ierea, ?n func?ie de deformarea la care este supus? epruveta ?naintea ruperii, a defectelor superficiale ?i interne, precum ?i ev
信息：ICS： CCS：发布：1992 实施：

GB/T 25048-2010 金属材料管环拉伸试验方法
简介：本标准规定了拉伸金属管环试样直至断裂而使金属管环试样表面和内部的缺陷暴露出来的试验方法。本标准也可用于评定金属管的延展性能。本标准适用于外径大于150mm、管壁厚不大于40mm且内径大于100mm的金属管。
信息：ICS：77.040.10 CCS：H23 发布：2010-09-02 实施：2011-06-01

UNE 55-708-1989 液态薄膜的拉伸界面张力的测定以及环测法测定过程中的图文描述
简介：El presente complemento tiene por objeto describir de forma ilustrada el desarrollo del método de medida de la tensión interfacial por estirado de una película interfacial líquida unida a un anillo de platino. Este método viene descrito en la norma UNE 55-708. Se consideran por separado los sistemas en que la fase acuosa es la más densa y los casos en que la fase acuosa es la menos densa.El presente complemento sólo puede aplicarse cuando la determinación de la tensión interfacial se efectúa siguiendo el método que utiliza un anillo de platino descrito en la norma UNE 55-708.
信息：ICS： CCS：发布：1989-2-1 实施：

GB/T 17104-1997 金属管管环拉伸试验方法
简介： 本标准规定了金属管环拉伸试验方法的原理、试样、试验设备、试验程序、试验结果评定和试验报告。本标准适用于外径大于150mm和管壁厚度不大于40mm，但内径应大于100mm的圆形横截面金属管的管环拉伸试验，用以显示其表面和内部缺陷。也可用以评定管材的延性。
信息：ICS：77.040.10 CCS：H23 发布：1997-11-11 实施：1998-05-01

ISO 8496:1986 金属材料.管.环拉伸试验
简介：
信息：ICS：77.040.10 CCS：发布：1986-10-09 实施：

GB/T 2088-1997 圆柱螺旋拉伸弹簧(圆钩环压中心型)尺寸及参数
简介： 本标准规定了圆柱螺旋拉伸弹簧（圆钩环压中心型）尺寸及参数。本标准适用于受变负荷作用次数在10以下以及受变负荷作用次数在10～10次或冲击负荷的普通圆截面螺旋拉伸弹簧（圆钩环压中心型）（以下简称弹簧）。弹簧材料直径为0.5～3mm。
信息：ICS：21.160 CCS：J26 发布：1997-07-25 实施：1998-02-01

CSN 42 0314-1980 金属拉伸试验用的定位环圆截面封头试件
简介：Zpracovatel a VONS: Státní v?zkumn? ústav materiálu, Praha -Ing. Ji?í DokoupilPracovník ??adu pro normalizaci a mě?ení: Ing. P?emysl Berounsk?
信息：ICS：77.040.10 CCS：发布：1980-5-6 实施：

YS/T 1260-2018 锆及锆合金管材环向拉伸试验方法
简介：
信息：ICS：77.120.99 CCS：H22 发布：2018-10-22 实施：2019-04-01

CSN 42 0317-1980 金属拉伸试验用的定位环圆截面镦粗夹头试件
简介：Zpracovatel a VONS: Státní v?zkumn? ústav materiálu, Praha Ing. Ji?í DokoupilPracovník ??adu pro normalizaci a mě?ení: Ing. P?emysl Berounsk?
信息：ICS：77.040.10 CCS：发布：1980-5-6 实施：

GOST R 57971-2017 陶瓷复合材料. 弹性嵌件圆柱形试样常温环向拉伸强度的测定
简介：
信息：ICS：81.060.30 CCS：发布：2017-00-00 实施：2018-06-01

SIS 11 21 65-1975 灰铸铁干管的环拉伸试验
简介：
信息：ICS： CCS：发布：1975-6-1 实施：

ASTM C1819-2015 使用弹性衬垫在环境温度下测定连续纤维增强型高级陶瓷复合管试件的环向拉伸强度的标准试验方法
简介： 5.1x00a0;This test method (a.k.a., overhung tube method) may be used for material development, material comparison, material screening, material down selection and quality assurance. This test method is not recommended for material characterization, design data generation and/or material model verification/validation. 5.2x00a0;Continuous fiber-reinforced ceramic composites (CFCC) are composed of continuous ceramic-fiber directional (1-D, 2-D, and 3-D) reinforcements in a fine grain-sized (<50 x00b5;m) ceramic matrix with controlled porosity. Often these composites have an engineered thin (0.1 to 10 x00b5;m) interface coating on the fibers to produce crack deflection and fiber pull-out. 5.3x00a0;CFCC components have a distinctive and synergistic combination of material properties, interface coatings, porosity control, composite architecture (1-D, 2-D, and 3-D), and geometric shape that are generally inseparable. Prediction of the mechanical performance of CFCC tubes (particularly with braid and 3-D weave architectures) cannot be made by applying measured properties from flat CFCC plates to the design of tubes. In particular tubular components comprised of CMCs material form a unique synergistic combination of material and geometric shape that are generally inseparable. In other words, prediction of mechanical performance of CMC tubes generally cannot be made by using properties measured from flat plates. Strength tests of internally-pressurized, CMC tubes provide information on mechanical behavior and strength for a multiaxially-stressed material. 5.4x00a0;Unlike monolithic advanced ceramics which fracture catastrophically from a single dominant flaw, CMCs generally experience x201c;gracefulx201d; fracture from a cumulative damage process. Therefore, while the volume of material subjected to a uniform hoop tensile stress for a single uniformly pressurized tube test may be a significant factor for determining matrix cracking stress, this same volume may not be as significant a factor in determining the ultimate strength of a CMC. However, the probabilistic nature of the strength distributions of the brittle matrices of CMCs requires a statistically significant number of test specimens for statistical analysis and design. Studies to determine the exact influence of test specimen volume on strength distributions for CMCs have not been completed. It should be noted that hoop tensile strengths obtained using different recommended test specimens with different volumes of material in the gage sections may be different due to these volume effects. 5.5x00a0;Hoop tensile strength tests provide information on the strength and deformation of materials under biaxial stresses induced from internal pressurization of tubes. Non-uniform stress states are inherent in these types of tests and subsequent evaluation of any non-linear stress-strain behavior must take into account the unsymmetric behavior of the CMC under biaxial stressing. This non-linear behavior which may develop as the result of cumulative damage processes (for example, matrix cracking, matrix/fiber debonding, fiber fracture, delamination, etc.) which may be influenced by testing mode, testing rate, processing or alloying effects, or environmental influences. Some of these effects may be consequences of stress corrosion or subcritical (slow) crack growth that can be minimized by testing at sufficiently rapid rates as outlined in this test method. ......
信息：ICS： CCS：发布：2015 实施：

STAS 10159-1975 机器固位装置．张紧拉伸弹簧用的环首螺栓尺寸
简介：
信息：ICS： CCS：发布：1975-5-1 实施：

ISO 8496:2013 金属材料——管——环拉伸试验
简介：
信息：ICS：77.040.10 CCS：发布：2013-11-05 实施：

AS/NZS 3572.24-1997 塑料．玻璃丝增强塑料（GRP）．测试方法 -初始环向拉伸强度测定的拉伸板材试验方法
简介：
信息：ICS：83.120 CCS：发布：实施：

SANS 8496-2003 金属材料．管材．环拉伸试验方法
简介：Specifies a method for a ring tensile test of tubes to reveal surface and internal defects by subjecting the test piece to strain until fracture occurs. This test may also be used to assess the ductility of tubes. The ring tensile test is applicable to t
信息：ICS：77.040.10 CCS：H22 发布：2003-09-19 实施：

YB/T 5361-2006 金属管管环拉伸试验方法
简介：
信息：ICS： CCS：H48 发布：实施：2006-10-11

AECMA PREN 2002-2-2003 航空航天系列.金属材料测试方法.第1部分:环高温拉伸试验P3版
简介：This draft is now available for public comment and your views and technical comments on it would be appreciated. If you have no specific comments to make hut find it generally acceptable it would be helpful if you would notify US accordingly. Suggestions entailing revision of the text should indicate the preferred wording. Please quote the relevant clause number against any comment.
信息：ICS：49.060 CCS：V11 发布：2003 实施：

KS B ISO 8496-2001(2021) 金属材料管环拉伸试验
简介：
信息：ICS：77.040 CCS：发布：2001-12-31 实施：

KS B ISO 8496-2001(2016) 金属材料 - 管 - 环拉伸试验
简介：
信息：ICS：77.040 CCS：发布：2001-12-31 实施：

SAE AMS 4964-2000 拉伸型4.5Al 3V 2Fe 2Mo形状硬质钛合金棒,线,铸件,环
简介：This specification covers a titanium alloy in the form of bars, wire, forgings, flash welded rings, and stock for forging or flash welded ring. These products have been used typically for parts requiring good fatigue strength, formability, and strength up to 480 degrees F (249 degrees C), but usage is not limited to such applications. The alloy is superplastic below 1520 degrees F (827 degrees C) and hot formable from 1200 to 1560 degrees F (649 to 849 degrees C).
信息：ICS：49.025.30 CCS：H64 发布：2000-07-01 实施：

AECMA PREN 2002-2-1999 航空航天系列.金属材料测试方法.第1部分:环高温拉伸试验P3版
简介：This draft is now available for public comment and your views and technical comments on it would be appreciated. If you have no specific comments to make hut find it generally acceptable it would be helpful if you would notify US accordingly. Suggestions entailing revision of the text should indicate the preferred wording. Please quote the relevant clause number against any comment.
信息：ICS：49.060 CCS：V11 发布：1999-02-01 实施：

ISO 8496:1998 金属材料.管.环拉伸试验
简介：
信息：ICS：77.040.10 CCS：发布：1998-10-22 实施：

DS/EN 10237-1994 金属材料．导管．管环拉伸试验
简介：This European Standard specifies a method for a ring tensile test of tubes to reveal surface and internal defects by subjecting the test piece to strain until fracture occurs. This test may also be used to assess the ductility of tubes. The ring tensile test is applicable to tubes having an outside diameter exceeding 150 mm and wall thickness not greater than 40 mm. The inside diameter should be greater than 100 mm.
信息：ICS： CCS：发布：1994-04-12 实施：1994-04-12

NF A03-096-1994 金属材料.管材.环拉伸试验
简介：
信息：ICS：77.040.10 CCS：H23 发布：1994-02 实施：1994-01-20

ONORM EN 10237-1994 金属材料．管．环拉伸试验
简介：In dieser Europ?ischen Norm ist der Ringzugversuch für Rohre festgelegt. Er dient der Feststellung von Fehlern an der Oberfl?che und im Querschnitt durch eine Beanspruchung einer Probe bis zum Bruch. Er darf auch zur Bestimmung der Umformbarkeit von Rohren angewandt werden.Der Ringzugversuch ist anwendbar auf Rohre mit einem AuBendurchmesser über 150 mm und Wanddicken nicht gr??er als 40 mm. Der Innendurchmesser sollte gr??er als 100 mm sein.
信息：ICS： CCS：发布：1994-01-01 实施：1994-01-01

CSN ISO 8496-1994 金属材料．管子．环拉伸试验
简介：Zpracovatel: Státní v?zkumn? ústav materiálu Praha, I?O 002348 — Ing. Jih' Dokoupil. Technická normaliza?ní komise: TNK 64 Mechanické zkou?ení kov?. Pracovník ?eského normaliza?ního institutu: Ing. Libu?e Sedláková.
信息：ICS： CCS：发布：1994 实施：1994

DIN 53843-1-1992 纺织品的检验.环接拉伸试验.纱线
简介：This document deals with the loop tensile test for yarns.
信息：ICS：59.080.20 CCS：W04 发布：1992-11 实施：