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热膨胀系数仪相关标准参考信息

GB/T 9966.16-2021 天然石材试验方法 第16部分:线性热膨胀系数的测定
简介:
信息:ICS:91.100.15 CCS:Q21 发布:2021-04-30 00:00:00.0 实施:2021-11-01 00:00:00.0

ISO 23458-2020 精细陶瓷(高级陶瓷 高级工业陶瓷).测定CVD陶瓷涂层热膨胀系数和残余应力的试验方法
简介:
信息:ICS:81.060.30 CCS发布:2020-05-12 实施

GOST 32618.2-2014 塑料. 热机械分析法 (TMA). 第2部分. 线性热膨胀系数和玻璃化转变温度的测定
简介:
信息:ICS:83.080.01 CCS发布:2014 实施:2015-03-01

GB/T 7991.7-2019 搪玻璃层试验方法 第7部分:平均线热膨胀系数的测定
简介:
信息:ICS:71.120;25.220.50 CCS:G94 发布:2019-12-10 00:00:00.0 实施:2020-11-01 00:00:00.0

ISO 14420-2020 用于生产铝阳极和成型碳产品的碳质产品 - 线性热膨胀系数的测定
简介:
信息:ICS:71.100.10 CCS发布:2020-03-05 实施

GOST R ISO 14420-2014 铝生产用碳质材料. 预焙阳极和形碳制品. 线性热膨胀系数的测定
简介:
信息:ICS:71.100.10 CCS发布:2014 实施:2015-07-01

GB/T 36800.2-2018 塑料 热机械分析法(TMA) 第2部分:线性热膨胀系数和玻璃化转变温度的测定
简介:
信息:ICS:83.080.20 CCS:G31 发布:2018-09-17 00:00:00.0 实施:2019-04-01 00:00:00.0

ISO 14420:2020 用于生产铝阳极和成型碳产品的碳质产品 - 线性热膨胀系数的测定
简介:
信息:ICS:71.100.10 CCS发布:2020-03-05 实施

ASTM D6341-2014 测定-30至140华氏度(-34.4至60℃)C41之间塑料制材和塑料制材型材线热膨胀系数的标准试验方法
简介:5.1x00a0;The coefficient of linear thermal expansion, x03b1;, between temperatures T1 and T2 for a specimen whose length is L0 at the reference temperature, is given by the following equation: Where L1 and L2 are the specimen lengths at temperatures T1 and T2, respectively. x03b1; is, therefore, obtained by dividing the linear expansion per unit length by the change in temperature. 5.2x00a0;The nature of most plastics and the construction applications for which plastic lumber and plastic lumber shapes are used, make x2013;30 to 140x00b0;F (x2013;34.4 to 60x00b0;C) a practical temperature range for linear thermal expansion measurements. Where testing outside of this temperature range or when linear thermal expansion characteristics of a particular plastic are not known through this temperature range, particular attention shall be paid to the factors mentioned in 1.2 and it is possible that special preliminary investigations by thermo-mechanical analysis, such as what is prescribed in Practice D4065 for the location of transition temperatures, will be required, in order to avoid excessive error. If such a transition point is located, a separate coefficient of expansion for a temperature range below and above the transition point shall be determined. For specification and comparison purposes (provided it is known that no transition exists in this range), the range from x2013;30 to 140x00b0;F (x2013;34.4 to 60x00b0;C) shall be used. (For reference, glass transition and melting point temperatures of typical resins used in plastic lumber products are given in Appendix X2 of this test method.) 1.1x00a0;This test method covers the determination of the coefficient of linear thermal expansion for plastic lumber and plastic lumber shapes to two significant figures. The determination is made by taking measurements with a caliper at three discrete temperatures. At the test temperatures and under the stresses imposed, the plastic lumber shall have a negligible creep or elastic strain rate, or both, insofar as these properties would significantly affect the accuracy of the measurements. 1.1.1x00a0;This test method details the determination of the linear coefficient of thermal expansion of plastic lumber and plastic lumber shapes in their x201c;as manufacturedx201d; form. As such, this is a test method for evaluating the properties of plastic lumber or shapes as a product and not a material property test method. 1.2x00a0;The thermal expansion of plastic lumber and shapes is composed of a reversible component on which it is possible to superimpose changes in length due to changes in moisture content, curing, loss of plasticizer or solvents, release of stresses, phase ......
信息:ICS:17.040.99 (Other standards relating to linear and CCS:G31 发布:2014 实施

GB/T 34183-2017 建筑设备及工业装置用绝热制品 热膨胀系数的测定
简介:
信息:ICS:91.100.60 CCS:Q25 发布:2017-09-07 00:00:00.0 实施:2018-08-01 00:00:00.0

ASTM C531-18 整体表面和聚合物混凝土上的水泥浆耐化学性灰浆的线性收缩和热膨胀系数的标准试验方法
简介:
信息:ICS:91.100.10 CCS发布:2018-07-01 实施

GOST 10978-2014 玻璃和玻璃制品. 线性热膨胀系数试验方法
简介:
信息:ICS:81.040.01 CCS:Q33 发布:2014 实施:2016-04-01

GB/T 28194-2011 玻璃 双线法线热膨胀系数的测定
简介:本标准规定了玻璃双线法线热膨胀系数的测定方法。本标准适用于测定与参考标准玻瑞成分相近的玻璃及其容器的线热膨胀系数。
信息:ICS:81.040.01 CCS:N64 发布:2011-12-30 实施:2012-09-01

ISO 20274:2017 玻璃瓷和瓷搪瓷 - 样品的制备和热膨胀系数的测定
简介:
信息:ICS:25.220.50 CCS发布:2017-07-18 实施

GOST 10978-2014 玻璃和玻璃制品. 线性热膨胀系数试验方法
简介:
信息:ICS:81.040.01 CCS发布:2014 实施:2016-04-01

GB/T 16535-2008 精细陶瓷线热膨胀系数试验方法.顶杆法
简介:本标准规定了从近液氮温度到最高温度1500℃范围内精细瓷线热膨胀率和线热膨胀系数的试验方法的原理、仪器设备、试样、试验步骤和结果计算等。本标准适用于块体精细陶瓷,其他无机非金属材料也可参考使用。
信息:ICS:81.060.30 CCS:Q32 发布:2008-09-18 实施:2009-05-01

ASTM D1903-08(2017) 确定石油来源的电绝缘液体的热膨胀系数的标准实践和Askarels
简介:
信息:ICS:29.040.10 CCS发布:2017-01-01 实施

ASTM D6341-2014a 测定-30 ℉至140 ℉ (-34.4 ℃至60 ℃) 之间塑料制材和型材线热膨胀系数的标准试验方法
简介:5.1x00a0;The coefficient of linear thermal expansion, x03b1;, between temperatures T1 and T2 for a specimen whose length is L0 at the reference temperature, is given by the following equation: Where L1 and L2 are the specimen lengths at temperatures T1 and T2, respectively. x03b1; is, therefore, obtained by dividing the linear expansion per unit length by the change in temperature. 5.2x00a0;The nature of most plastics and the construction applications for which plastic lumber and plastic lumber shapes are used, make x2013;30 to 140x00b0;F (x2013;34.4 to 60x00b0;C) a practical temperature range for linear thermal expansion measurements. Where testing outside of this temperature range or when linear thermal expansion characteristics of a particular plastic are not known through this temperature range, particular attention shall be paid to the factors mentioned in 1.2 and it is possible that special preliminary investigations by thermo-mechanical analysis, such as what is prescribed in Practice D4065 for the location of transition temperatures, will be required, in order to avoid excessive error. If such a transition point is located, a separate coefficient of expansion for a temperature range below and above the transition point shall be determined. For specification and comparison purposes (provided it is known that no transition exists in this range), the range from x2013;30 to 140x00b0;F (x2013;34.4 to 60x00b0;C) shall be used. (For reference, glass transition and melting point temperatures of typical resins used in plastic lumber products are given in Appendix X2 of this test method.) 1.1x00a0;This test method covers the determination of the coefficient of linear thermal expansion for plastic lumber and plastic lumber shapes to two significant figures. The determination is made by taking measurements with a caliper at three discrete temperatures. At the test temperatures and under the stresses imposed, the plastic lumber shall have a negligible creep or elastic strain rate, or both, insofar as these properties would significantly affect the accuracy of the measurements. 1.1.1x00a0;This test method details the determination of the linear coefficient of thermal expansion of plastic lumber and plastic lumber shapes in their x201c;as manufacturedx201d; form. As such, this is a test method for evaluating the properties of plastic lumber or shapes as a prod......
信息:ICS:17.040.99 (Other standards relating to linear and CCS发布:2014 实施

GB/T 3074.4-2003 石墨电极测定方法 石墨电极热膨胀系数(CTE)测定方法
简介:本部分规定了石墨电极热膨胀系数的测定原理、仪器设备、试样制备、试验步骤和计算方法。 本部分适用于普通功率、高功率、超高功率石墨电极及总膨胀量在600℃时不超过1mm的其他固体炭材料,温度范围为室温~600℃的平均线膨胀系数。
信息:ICS:29.040 CCS:Q51 发布:2003-09-12 实施:2004-04-01

KS M 3040-2016(2021) 塑料立方热膨胀系数的试验方法
简介:
信息:ICS:83.080.01 CCS发布:2016-12-27 实施

ASTM D5335-2014 用粘结的电阻应变仪测定岩石热膨胀线性系数的标准试验方法
简介:5.1x00a0;Information concerning the thermal expansion characteristics of rocks is important in the design of underground excavation where the temperature of the surrounding rock may be altered. Depending on the restraint conditions, thermal strain may cause thermal stress that may affect the stability of underground excavations. Examples of applications where an understanding of rock thermal strain is important include: nuclear waste repositories, underground power stations, compressed air energy storage facilities, energy foundations, and geothermal energy facilities. 5.2x00a0;The coefficient of linear thermal expansion, x03b1;, of rock is known to vary as the temperature changes. Rock thermal strain is normally not a linear function of temperature. This test method provides a procedure for continuously monitoring thermal strain as a function of temperature. Therefore, information on how the coefficient of linear thermal expansion changes with temperature is obtained. 5.3x00a0;Other methods of measuring the coefficient of linear thermal expansion of rock by averaging the thermal strain of a large specimen over a temperature range of many degrees may result in failure to determine the variation in x03b1; of that rock for one or more of the following reasons: 5.3.1x00a0;x03b1; is not always linear with temperature, 5.3.2x00a0;Some rocks are anisotropic having directional characteristics which can vary by more than a factor of two. If anisotropy is expected, specimen with different orientations should be prepared and tested. 5.3.3x00a0;x03b1; may have a negative value in one direction and, at the same time, a positive value in the others. 5.4x00a0;Both wire and foil type strain gauges have been successfully employed to measure the thermal expansion coefficients of rock. These coefficients are frequently very small, being on the order of millionths of a millimetre per millimetre for each degree Celsius. The thermal strain of rocks is about one-tenth that of plastics and one-half or one-quarter that of many metals. Therefore, measurement methods for rocks require greater precision than methods that are routinely used on plastics and metals. Note 4:x00a0;The quality of the results produced by this standard is dependent on the competence of the personnel performing it, and the suitability of the equipment and facilities used. Agencies that meet the criteria of Practice D3740 are generally considered capable of competent and objective testing/sampling/inspection/etc. Users of this standard are cautioned that compliance with Practice D3740 does not in itself ensure reliable results. Reliable results depend on many factors; Practice D3740 provides a means of evaluating some of those factors. 1.1x00a0;This test method covers the laboratory determination of the linear (one-dimensional) coefficient of thermal expansion of rock using bonded electric resistance strain gauges. This test method is intended for ev......
信息:ICS:93.020 (Earth works. Excavations. Foundation const CCS发布:2014 实施

GB/T 16920-1997 玻璃 平均线热膨胀系数的测定
简介:本标准规定了远低于转变温度的弹性固体玻璃的平均线热膨胀系数的试验方法。 本标准适用于所有常规组分批量生产的玻璃。 本标准不适用于熔融石英、玻璃陶瓷或其他具有同样抵线热膨胀系数的玻璃。
信息:ICS:81.040.01 CCS:Q30 发布:1997-07-24 实施:1998-01-01

KS M 3040-2016 用于塑料立方体的热膨胀系数的试验方法
简介:
信息:ICS:83.080.01 CCS发布:2016-12-27 实施

BS EN 62047-11-2013 半导体器件. 微型机电装置. 微型机电装置用无需支撑物材料线性热膨胀系数试验方法
简介:
信息:ICS:31.080.01;31.220.01 CCS:L40 发布:2013-10-31 实施:2013-10-31

GB/T 16535-1996 工程陶瓷线热膨胀系数试验方法
简介:本标准规定了测定工程陶瓷线热膨胀系数的方法,原理、仪器设备要求、试验步骤和计算方法。 本标准适用于从室温至1 200℃工程陶瓷线热膨胀系数的测定。
信息:ICS:81.060.20 CCS:Q32 发布:1996-09-13 实施:1997-04-01

ASTM D696-16 塑料线性热膨胀系数的标准测试方法
简介:
信息:ICS:83.080.01 CCS发布:2016-04-01 实施

IEC 62047-11:2013 半导体器件 - 微机电器件 - 第11部分:用于微机电系统的自由立体材料的线性热膨胀系数的测试方法
简介:
信息:ICS:31.080.99 CCS发布:2013-07-17 实施

GB/T 16920-2015 玻璃 平均线热膨胀系数的测定
简介:
信息:ICSCCS发布实施:2016-07-01

ASTM D6341-16 测定&x2013之间塑料木材和塑料木材形状的线性热膨胀系数的标准试验方法;30和140&xb0;F(x2013 ;;34.4和60&xb0;(C)
简介:
信息:ICS:17.040.99 CCS发布:2016-04-01 实施

IEC 62047-11-2013 半导体器件.微型机电装置.第11部分:微型机电装置用无需支撑物材料线性热膨胀系数试验方法
简介:
信息:ICS:31.080.01;31.080.99;31.220.01 CCS:L40 发布:2013-07 实施

GB/T 3074.4-2016 石墨电极热膨胀系数(CTE)测定方法
简介:
信息:ICSCCS发布实施:2017-07-01

ASTM D696-2016 使用石英玻璃热膨胀仪测定-30℃和30℃范围内的塑料线性热膨胀系数的标准试验方法
简介:5.1x00a0;The coefficient of linear thermal expansion, x03b1;, between temperatures T1 and T2 for a specimen whose length is L0 at the reference temperature, is given by the following equation: where L1 and L2 are the specimen lengths at temperatures T1 and T2, respectively. x03b1; is, therefore, obtained by dividing the linear expansion per unit length by the change in temperature. 5.2x00a0;The nature of most plastics and the construction of the dilatometer make x2212;30 to +30x00b0;C (x2212;22x00b0;F to +86x00b0;F) a convenient temperature range for linear thermal expansion measurements of plastics. This range covers the temperatures in which plastics are most commonly used. Where testing outside of this temperature range or when linear thermal expansion characteristics of a particular plastic are not known through this temperature range, particular attention shall be paid to the factors mentioned in 1.2. Note 2:x00a0;In such cases, special preliminary investigations by thermo-mechanical analysis, such as that prescribed in Practice D4065 for the location of transition temperatures, may be required to avoid excessive error. Other ways of locating phase changes or transition temperatures using the dilatometer itself may be employed to cover the range of temperatures in question by using smaller steps than 30x00b0;C (86x00b0;F) or by observing the rate of expansion during a steady rise in temperature of the specimen. Once such a transition point has been located, a separate coefficient of expansion for a temperature range below and above the transition point shall be determined. For specification and comparison purposes, the range from x2212;30x00b0;C to +30x00b0;C (x2212;22x00b0;F to +86x00b0;F) (provided it is known that no transition exists in this range) shall be used. 1.1x00a0;This test method covers determination of the coefficient of linear thermal expansion for plastic materials having coefficients of expansion greater than 18201;x00b5;m/(m.x00b0;C) by use of a vitreous silica dilatometer. At the test temperatures and under the stresses imposed, the plastic materials shall have a negligible creep or elastic strain rate or both, insofar as these properties would significantly affect the accuracy of the measurements. 1.1.1x00a0;Test ......
信息:ICS:83.080.01 CCS发布:2016 实施

ASTM D6341-13 测定塑料木材和塑料木材形状的线性热膨胀系数的标准试验方法–30度和140度;F(–34.4和60度;(C)
简介:
信息:ICS:17.040.99 CCS发布:2013-06-01 实施

GB/T 25144-2010 搪玻璃釉平均线热膨胀系数的测定方法
简介:
信息:ICSCCS:A29 发布实施:2011-03-01

ASTM D6341-2016 测定30 ℉至140 ℉ (34.4 ℃至60 ℃) 之间塑料制材和型材线热膨胀系数的标准试验方法
简介:5.1x00a0;The coefficient of linear thermal expansion, x03b1;, between temperatures T1 and T2 for a specimen whose length is L0 at the reference temperature, is given by the following equation: Where L1 and L2 are the specimen lengths at temperatures T1 and T2, respectively. x03b1; is, therefore, obtained by dividing the linear expansion per unit length by the change in temperature. 5.2x00a0;The nature of most plastics and the construction applications for which plastic lumber and plastic lumber shapes are used, make x2013;30 to 140x00b0;F (x2013;34.4 to 60x00b0;C) a practical temperature range for linear thermal expansion measurements. Where testing outside of this temperature range or when linear thermal expansion characteristics of a particular plastic are not known through this temperature range, particular attention shall be paid to the factors mentioned in 1.2 and it is possible that special preliminary investigations by thermo-mechanical analysis, such as what is prescribed in Practice D4065 for the location of transition temperatures, will be required, in order to avoid excessive error. If such a transition point is located, a separate coefficient of expansion for a temperature range below and above the transition point shall be determined. For specification and comparison purposes (provided it is known that no transition exists in this range), the range from x2013;30 to 140x00b0;F (x2013;34.4 to 60x00b0;C) shall be used. (For reference, glass transition and melting point temperatures of typical resins used in plastic lumber products are given in Appendix X2 of this test method.) 1.1x00a0;This test method covers the determination of the coefficient of linear thermal expansion for plastic lumber and plastic lumber shapes to two significant figures. The determination is made by taking measurements with a caliper at three discrete temperatures. At the test temperatures and under the stresses imposed, the plastic lumber shall have a negligible creep or elastic strain rate, or both, insofar as these properties would significantly affect the accuracy of the measurements. 1.1.1x00a0;This test method details the determination of the linear coefficient of thermal expansion of plastic lumber and plastic lumber shapes in their x201c;as manufacturedx201d; form. As such, this is a test method for evaluating the properties of plastic lumber or shapes as a product an......
信息:ICS:17.040.99 ; 83.140.99 CCS发布:2016 实施

BS ISO 18099-2013 建筑设备和工业装置用隔热产品.热膨胀系数的测定
简介:
信息:ICS:91.100.60 CCS:Q25 发布:2013-04-30 实施:2013-04-30

YB/T 6036-2022 热喷涂高温合金涂层热膨胀系数测定方法
简介:本文件规定了热喷涂高温合金涂层材料线性热膨胀系数的测定方法,包括术语和定义、原理、设备仪器、试样制备及要求、测试、计算、精度和偏差、试验报告。 本文件主要适用于用推杆式膨胀仪测定热喷涂高温合金涂层(如镍基合金涂层)的线性热膨胀系数。
信息:ICS:77.120 CCS:H65 发布:2022-09-30 实施:2023-04-01

GOST R 56466-2015 空间系统. 材料试验方法. 高温条件下线性热膨胀系数复合材料的测定方法
简介:
信息:ICS:49.025.99 CCS:V04 发布:2015 实施:2016-01-01

BS ISO 18099-2013 建筑设备和工业装置用隔热产品.热膨胀系数的测定
简介:
信息:ICS:91.100.60 CCS:Q25 发布:2013-04-30 实施:2013-04-30

YB/T 6046-2022 等静压石墨热膨胀系数测定方法
简介:本文件规定了等静压石墨热膨胀系数仪器设备、试样要求、试验步骤、结果计算、允许差和试验报告。 本文件适用于推杆式热膨胀仪测定等静压石墨的线性热膨胀系数,其它炭素材料参照使用。
信息:ICS:29.050 CCS:Q52 发布:2022-09-30 实施:2023-04-01

GOST R 56466-2015 空间系统. 材料试验方法. 高温条件下线性热膨胀系数复合材料的测定方法
简介:
信息:ICS:49.025.99 CCS发布:2015 实施:2016-01-01

ISO 18099:2013 建筑设备和工业装置用隔热产品——热膨胀系数的测定
简介:
信息:ICS:91.100.60 CCS发布:2013-04-05 实施

ISO 18099-2022 建筑设备和工业装置用隔热产品.热膨胀系数的测定
简介:
信息:ICS:91.100.60 CCS发布:2022-08-08 实施

NF T70-313-2014 国防用高能材料.物理化学分析及特性.直接测量法测定线性热膨胀系数
简介:La méthode s'applique aux matériaux solides formés.Ils peuvent être par exemple des explosifs, des propergols ou par extension des matériaux d'aménagement interne (MAI).
信息:ICS:71.100.30 CCS:G89 发布:2014-10-03 实施:2014-10-03

ISO 18099-2013 建筑设备和工业装置用隔热产品.热膨胀系数的测定
简介:
信息:ICS:91.100.60 CCS:Q25 发布:2013-04 实施

ISO 23766-2022 工业装置用隔热产品.亚环境温度下线性热膨胀系数的测定
简介:
信息:ICS:91.100.60 CCS发布:2022-03-14 实施

ASTM D6341-14a 测定塑料木材和塑料木材形状的线性热膨胀系数的标准试验方法–30度和140度;F&40&恩达什;34.4和60度;C&41
简介:
信息:ICS:17.040.99 CCS发布:2014-08-01 实施

DL/T 1204-2013 矿物绝缘油热膨胀系数测定法
简介:本标准规定了矿物绝缘油热膨胀系数的测定方法。本标准适用于在变压器、电抗器、电缆、断路器、电容器等充油电气设备中起绝缘或冷却作用的矿物绝缘油的热膨胀系数的测定。
信息:ICS:27.100 CCS:F24 发布:2013-03-07 实施:2013-08-01

KS M ISO 14420-2021 铝生产用碳素制品.焙烧阳极和成型碳素制品.线性热膨胀系数的测定
简介:
信息:ICS:71.100.10 CCS发布:2021-12-29 实施

ASTM D5335-14 使用粘结电阻应变计的岩石热膨胀线性系数的标准测试方法
简介:
信息:ICS:93.020 CCS发布:2014-06-01 实施

ASTM D6341-2013 测定-30至140华氏度(-34.4至60℃)之间塑料制材和塑料制材型材线热膨胀系数的标准试验方法
简介:5.1x00a0;The coefficient of linear thermal expansion, x03b1;, between temperatures T1 and T2 for a specimen whose length is L0 at the reference temperature, is given by the following equation: Where L1 and L2 are the specimen lengths at temperatures T1 and T2, respectively. x03b1; is, therefore, obtained by dividing the linear expansion per unit length by the change in temperature. 5.2x00a0;The nature of most plastics and the construction applications for which plastic lumber and plastic lumber shapes are used, make x2013;30 to 140x00b0;F (x2013;34.4 to 60x00b0;C) a practical temperature range for linear thermal expansion measurements. Where testing outside of this temperature range or when linear thermal expansion characteristics of a particular plastic are not known through this temperature range, particular attention shall be paid to the factors mentioned in 1.2 and it is possible that special preliminary investigations by thermo-mechanical analysis, such as what is prescribed in Practice D4065 for the location of transition temperatures, will be required, in order to avoid excessive error. If such a transition point is located, a separate coefficient of expansion for a temperature range below and above the transition point shall be determined. For specification and comparison purposes (provided it is known that no transition exists in this range), the range from x2013;30 to 140x00b0;F (x2013;34.4 to 60x00b0;C) shall be used. (For reference, glass transition and melting point temperatures of typical resins used in plastic lumber products are given in Appendix X2 of this test method.) 1.1x00a0;This test method covers the determination of the coefficient of linear thermal expansion for plastic lumber and plastic lumber shapes to two significant figures. The determination is made by taking measurements with a caliper at three discrete temperatures. At the test temperatures and under the stresses imposed, the plastic lumber shall have a negligible creep or elastic strain rate, or both, insofar as these properties would significantly affect the accuracy of the measurements. 1.1.1x00a0;This test method details the determination of the linear coefficient of thermal expansion of plastic lumber and plastic lumber shapes in their x201c;as manufacturedx201d; form. As such, this is a test method for evaluating the properties of plastic lumber or shapes as a product and not a material property test method.
信息:ICS:17.040.99 (Other standards relating to linear and CCS:G31 发布:2013 实施

ISO 11359-2-2021 塑料.热机械分析(TMA).第2部分:线性热膨胀系数和玻璃化转变温度的测定
简介:
信息:ICS:83.080.01 CCS发布:2021-11-12 实施

ASTM D6341-14 测定塑料木材和塑料木材形状的线性热膨胀系数的标准试验方法–30度和140度;F&40&恩达什;34.4和60度;C&41
简介:
信息:ICS:17.040.99 CCS发布:2014-04-15 实施

QB/T 1321-2012 陶瓷材料平均线热膨胀系数测定方法
简介:本标准规定了室温至试样所需测试温度范围内,陶瓷材料平均线热膨胀系数的测定方法。本标准适用于烧成后的坯料、釉料等陶瓷材料。
信息:ICS:81.060.10 CCS:Y20 发布:2012-12-28 实施:2013-06-01

ISO 11359-2:2021 塑料.热机械分析(TMA).第2部分:线性热膨胀系数和玻璃化转变温度的测定
简介:
信息:ICS:83.080.01 CCS发布:2021-11-12 实施

DIN EN 62047-11-2014 半导体器件. 微型机电装置. 第11部分:微型机电装置用无需支撑物材料线性热膨胀系数试验方法 (IEC 62047-11-2013); 德文版本EN 62047-11-2013
简介:
信息:ICS:31.080.01;31.220.01 CCS:L40 发布:2014-04 实施:2014-04-01

KS L ISO 7991-2012(2017) 玻璃平均线热膨胀系数的测定
简介:
信息:ICS:81.040.01 CCS发布:2012-11-30 实施

ASTM D6341-21 塑料木材和形状介于-30和140之间的塑料木材的线性热膨胀系数测定的标准试验方法°F(–34.4和60°(三)
简介:
信息:ICS:17.040.99 CCS发布:2021-01-15 实施

NF C96-050-11-2014 半导体器件. 微型机电装置. 第11部分: 微型机电装置用无需支撑物材料线性热膨胀系数试验方法
简介:La présente partie de la CEI 62047 définit la méthode d'essai pour mesurer les coefficients de dilatation thermique linéaire (CLTE) de matériaux de systèmes micro-électromécaniques (MEMS) solides autonomes minces (métalliques, céramiques, polymères, etc.) dont la longueur est comprise entre 0,1 mm et 1 mm, la largeur entre 10 pico m et 1 mm et l'épaisseur entre 0,1 pico m et 1mm, qui sont les matériaux structurels principaux utilisés pour les MEMS, les micromachines et autres. Cette méthode d'essai peut s'appliquer à la mesure des CLTE dans la gamme de températures allant de la température ambiante jusqu'à 30 % de la température de fusion du matériau.
信息:ICS:29.045;31.080.99 CCS:L40 发布:2014-03-12 实施:2014-03-12

KS L ISO 7991-2012(2022) 玻璃-平均线性热膨胀系数的测定
简介:
信息:ICS:81.040.01 CCS发布:2012-11-30 实施

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