ASTM D6264/D6264M-17
测量纤维增强聚合物基复合材料对集中准静态压痕力的损伤阻抗的标准试验方法
Standard Test Method for Measuring the Damage Resistance of a Fiber-Reinforced Polymer-Matrix Composite to a Concentrated Quasi-Static Indentation Force
ASTM D6264/D6264M-17 发布历史
ASTM D6264/D6264M-17由美国材料与试验协会 US-ASTM 发布于 2017。
ASTM D6264/D6264M-17 在中国标准分类中归属于: Q23 纤维增强复合材料,在国际标准分类中归属于: 83.120 增强塑料。
ASTM D6264/D6264M-17 发布之时,引用了标准
- ASTM D3171 复合材料组分含量的标准试验方法
- ASTM D3878 复合材料标准术语
- ASTM D5229/D5229M 高聚物基体合成材料水分吸收性能和平衡条件的标准试验方法
- ASTM D5687/D5687M 平面复合板的制备指南和试样制备的加工指南
- ASTM D7136/D7136M 用于测量纤维增强聚合物基质复合材料对跌落冲击事件的抗损伤性的标准测试方法
- ASTM D7137/D7137M 损坏的聚合物基复合材料板的压缩残余强度特性的标准试验方法
- ASTM D7766/D7766M 夹层结构抗损伤试验的标准实施规程
- ASTM D792 用位移法测定塑料密度和比重(相关密度)的标准试验方法
- ASTM D883 塑料相关标准术语
- ASTM E122 计算样本量以估计的标准实践 具有指定的容差 批次或过程特征的平均值
- ASTM E177 进行室外噪声测量的测量方案的拟定用标准指南
- ASTM E18 金属材料洛氏硬度的标准试验方法
- ASTM E2533 航空航天用聚合物基复合材料无损检验的标准指南
- ASTM E4 试验机的负荷校准的标准实施规程
- ASTM E456 统计学名词及相关术语
- ASTM E6 机械试验方法的有关标准术语
ASTM D6264/D6264M-17的历代版本如下:
- 2023年 ASTM D6264/D6264M-23 测量纤维增强聚合物基复合材料对集中准静态压痕力的抗损伤性的标准试验方法
- 2017年 ASTM D6264/D6264M-17 测量纤维增强聚合物基复合材料对集中准静态压痕力的损伤阻抗的标准试验方法
- 2012年 ASTM D6264/D6264M-12 聚合物基复合材料集中准静态压痕损伤测量的标准试验方法
- 2007年 ASTM D6264/D6264M-07 测量聚合物基复合材料集中准静态压痕损伤的标准试验方法
- 1998年 ASTM D6264-98(2004) 与一集中的拟静态压痕力复合的纤维增强聚合物基质的耐破坏性测量的标准试验方法
- 1998年 ASTM D6264-98 与一集中的拟静态压痕力复合的纤维增强聚合物基质的耐破坏性测量的标准试验方法
5.1 Susceptibility to damage from concentrated out-of-plane forces is one of the major design concerns of many structures made of advanced composite laminates. Knowledge of the damage resistance properties of a laminated composite plate is useful for product development and material selection.
5.2 QSI testing can serve the following purposes:
5.2.1 To simulate the force-displacement relationships of impacts governed by boundary conditions (1-7).5 These are typically relatively large-mass low-velocity hard-body impacts on plates with a relatively small unsupported region. Since the test is run slowly in displacement control, the desired damage state can be obtained in a controlled manner. Associating specific damage events with a force during a drop-weight impact test is often difficult due to the oscillations in the force history. In addition, a specific sequence of damage events may be identified during quasi-static loading while the final damage state is only identifiable after a drop-weight impact test.
5.2.2 To provide an estimate of the impact energy required to obtain a similar damage state for drop-weight impact testing if all others parameters are held constant.
5.2.3 To establish quantitatively the effects of stacking sequence, fiber surface treatment, variations in fiber volume fraction, and processing and environmental variables on the damage resistance of a particular composite laminate to a concentrated indentation force.
5.2.4 To compare quantitatively the relative values of the damage resistance parameters for composite materials with different constituents. The damage response parameters can include dent depth, damage dimensions and through-thickness locations, Fmax , Ea, and Emax, as well as the force versus indenter displacement curve.
5.2.5 To impart damage in a specimen for subsequent damage tolerance tests, such as Test Method D7137/D7137M.
5.2.6 To measure the indentation response of the specimen with and without bending using the two specimen configurations (edge supported and rigidly backed).
5.3 The properties obtained using this test method can provide guidance in regard to the anticipated damage resistance capability of composite structures of similar material, thickness, stacking sequence, etc. However, it must be understood that the damage resistance of a composite structure
- 标准号
- ASTM D6264/D6264M-17
- 发布
- 2017年
- 发布单位
- 美国材料与试验协会
- 替代标准
- ASTM D6264/D6264M-23
- 当前最新
- ASTM D6264/D6264M-23
- 引用标准
- ASTM D3171 ASTM D3878 ASTM D5229/D5229M ASTM D5687/D5687M ASTM D7136/D7136M ASTM D7137/D7137M ASTM D7766/D7766M ASTM D792 ASTM D883 ASTM E122 ASTM E177 ASTM E18 ASTM E2533 ASTM E4 ASTM E456 ASTM E6