《泡沫塑料——机理与材料》简介
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forced Plastic/Composites,2013(3):109‐117.
参考文献:
[1] 成志刚 . 大容积钢质内胆环向缠绕气瓶标准介绍[J]. 压
力容器,2013(7):47‐55.
CHENG Z G. Discuss on Standard of Hoop‐Wrapped
Composite Tubes with Steel Liner[J]. Pressure Vessel
还需进行进一步的研究。
Long‐term Viscoelastic Behavior of Amorphous Resin
Based on the Time‐Temperature Superposition Principle
[J]. Mechanics of Time‐Dependent Material,2011,15
[4] GUEDES R M. Creep and Fatigue Lifetime Prediction of
Polymer Matrix Composites Based on Simple Cumulative
Damage Laws[J]. Composite Part A,2008,39(11):
dings of International Composites Expo. Nashviles,Ten‐
nessee,Jan,1998:19‐21.
[6] GOERTZEN W K,KESSLER M R. Creep Behavior of
Carbon Fiber/Epoxy Matrix Composite[J]. Materials Sci‐
Temperature Dependence of Relaxation Mechanisms in
Amorphous Polymers and other Glass‐forming Liquids
[J]. Journal of the American Chemical Society,1955,77
Polymer Engineering and Science, 1997, 37 (9) :
1 485‐1 495.
[12] LUO W B,YANG T Q,AN Q L. Time‐Tempera‐
ture‐Stress Equivalence and its Application to Nonlinear
(14):3 701‐3 707.
[11] O’Connel P A,MCKENNA G B. Large Deformation
Response
of
Polycarbonate:
Time‐Temperature,
Time‐Aging Time and Time‐Strain Superposition[J].
Technology,2013(7):47‐55.
[2] 张冠军,齐国权,戚东涛 . 非金属及复合材料在石油管领
域应用现状及前景[J]. 石油科技论坛,2017(2):26‐31.
ZHANG G J,QI G Q,QI D T. Latest Development and
Application of Deep‐Well Drilling,Logging and Testing
Abbreviated Technique[C]//Corrosion. 2014,San Anto‐
nio,USA,No. 3901.
[15] HIGUCHI
Y, TANISHITA
T, YAMADA
K,
NISHIMURA H. Development of the Ring Creep Test‐
Technology and Equipment[J]. Oil Forum,2017(2):
26‐31.
[3] PELLOWE S. Fiberglass Pipe Design Manual[S]. Wash‐
ington:American water Works Association,2005.
ence and Engineering:A,2006,421:217‐225.
[7] NAKADA M,MIYANO Y,CAI H,et al. Prediction of
ห้องสมุดไป่ตู้
[9] 沈观林 . 复 合 材 料 力 学[M]. 北 京 :清 华 大 学 出 版 社 ,
2006:294‐297.
[10] WILLIAMS M L,LANDEL R F,FERRY J D. The
1 716‐1 725.
[5] REN W,BRINKMAN C R. Creep and Creep‐Rupture Be‐
havior of a Continuous Strand,Swirl Mat Reinforced Poly‐
mer Composite in Automotive Environments[C]//Preced‐
(3):309‐316.
[8] 刘鹏飞,赵启林,王景全 . 树脂基复合材料蠕变性能研究
进展[J]. 玻璃钢/复合材料,2013(3):109‐117.
LIU P F,ZHAO Q L. WANG J Q. Progress in Research
of the Creep Behavior of Resin Composite[J]. Fiber Rein‐
2020 年 1 月
· 33 ·
连续纤维复合材料环形试样蠕变行为研究
更明显,试样以更快的速度发展到蠕变非稳定状态,因
此复合材料在服役时,最高的应力状态应根据蠕变试
验结果进行设计,保证在运行期间的安全;
(3)由于埋地输水非金属复合管的使用环境和温
度较为稳定,因此本测试结果可为此类管道的设计提
供支持,对于高温及腐蚀环境下复合材料的长期性能
Viscoelastic Material[J]. Acta Mechanica Solida Sinica,
2001,14(3):195‐199.
[13] 贾 玉 . 碳纳米管/热塑性聚合物复合材料的制备及蠕变
行为研究[M]. 合肥:中国科学技术大学,2012.
[14] SPOO K. Measuring Corrosion of Glass Fibers Using an
参考文献:
[1] 成志刚 . 大容积钢质内胆环向缠绕气瓶标准介绍[J]. 压
力容器,2013(7):47‐55.
CHENG Z G. Discuss on Standard of Hoop‐Wrapped
Composite Tubes with Steel Liner[J]. Pressure Vessel
还需进行进一步的研究。
Long‐term Viscoelastic Behavior of Amorphous Resin
Based on the Time‐Temperature Superposition Principle
[J]. Mechanics of Time‐Dependent Material,2011,15
[4] GUEDES R M. Creep and Fatigue Lifetime Prediction of
Polymer Matrix Composites Based on Simple Cumulative
Damage Laws[J]. Composite Part A,2008,39(11):
dings of International Composites Expo. Nashviles,Ten‐
nessee,Jan,1998:19‐21.
[6] GOERTZEN W K,KESSLER M R. Creep Behavior of
Carbon Fiber/Epoxy Matrix Composite[J]. Materials Sci‐
Temperature Dependence of Relaxation Mechanisms in
Amorphous Polymers and other Glass‐forming Liquids
[J]. Journal of the American Chemical Society,1955,77
Polymer Engineering and Science, 1997, 37 (9) :
1 485‐1 495.
[12] LUO W B,YANG T Q,AN Q L. Time‐Tempera‐
ture‐Stress Equivalence and its Application to Nonlinear
(14):3 701‐3 707.
[11] O’Connel P A,MCKENNA G B. Large Deformation
Response
of
Polycarbonate:
Time‐Temperature,
Time‐Aging Time and Time‐Strain Superposition[J].
Technology,2013(7):47‐55.
[2] 张冠军,齐国权,戚东涛 . 非金属及复合材料在石油管领
域应用现状及前景[J]. 石油科技论坛,2017(2):26‐31.
ZHANG G J,QI G Q,QI D T. Latest Development and
Application of Deep‐Well Drilling,Logging and Testing
Abbreviated Technique[C]//Corrosion. 2014,San Anto‐
nio,USA,No. 3901.
[15] HIGUCHI
Y, TANISHITA
T, YAMADA
K,
NISHIMURA H. Development of the Ring Creep Test‐
Technology and Equipment[J]. Oil Forum,2017(2):
26‐31.
[3] PELLOWE S. Fiberglass Pipe Design Manual[S]. Wash‐
ington:American water Works Association,2005.
ence and Engineering:A,2006,421:217‐225.
[7] NAKADA M,MIYANO Y,CAI H,et al. Prediction of
ห้องสมุดไป่ตู้
[9] 沈观林 . 复 合 材 料 力 学[M]. 北 京 :清 华 大 学 出 版 社 ,
2006:294‐297.
[10] WILLIAMS M L,LANDEL R F,FERRY J D. The
1 716‐1 725.
[5] REN W,BRINKMAN C R. Creep and Creep‐Rupture Be‐
havior of a Continuous Strand,Swirl Mat Reinforced Poly‐
mer Composite in Automotive Environments[C]//Preced‐
(3):309‐316.
[8] 刘鹏飞,赵启林,王景全 . 树脂基复合材料蠕变性能研究
进展[J]. 玻璃钢/复合材料,2013(3):109‐117.
LIU P F,ZHAO Q L. WANG J Q. Progress in Research
of the Creep Behavior of Resin Composite[J]. Fiber Rein‐
2020 年 1 月
· 33 ·
连续纤维复合材料环形试样蠕变行为研究
更明显,试样以更快的速度发展到蠕变非稳定状态,因
此复合材料在服役时,最高的应力状态应根据蠕变试
验结果进行设计,保证在运行期间的安全;
(3)由于埋地输水非金属复合管的使用环境和温
度较为稳定,因此本测试结果可为此类管道的设计提
供支持,对于高温及腐蚀环境下复合材料的长期性能
Viscoelastic Material[J]. Acta Mechanica Solida Sinica,
2001,14(3):195‐199.
[13] 贾 玉 . 碳纳米管/热塑性聚合物复合材料的制备及蠕变
行为研究[M]. 合肥:中国科学技术大学,2012.
[14] SPOO K. Measuring Corrosion of Glass Fibers Using an