摘要
细观力学(mesoomechanics)对于发展非均匀材料的非连续介质力学是一种新的研究推动力。通过促进材料科学和固体力学学科之间的更密切合作,这种新推动力力图把力学原理应用到多相材料的细观结构组成上,从而把细观结构与力学之间的关系置于定量的基础之上。本文阐述了由细观力学的研究而产生的一些挑战和良机。
出处
《力学进展》
EI
CSCD
北大核心
1990年第3期394-400,共7页
Advances in Mechanics
同被引文献15
-
1SHENG GUANGMIN. Investigation of Contact Fatigue Behavior and Its Mechanism of PD3 Rail Steel[D]. Chongqing:Chongqing University, 1999.
-
2KUANGZHENBANG, GUHAIDENG, LIZHONGHUA. Mechanics Behavior of Material[M]. Beijing:Higher Education Publishing Company,1998.
-
3ZHANG S L, LI T, YANG W. Statistical Strength of Brittle Solids with Strongly Interacted Microcracks[J]. Int J Solids Structs, 1998,35:995-1 008.
-
4JOHNSON K L.Aspects of Contact Mechanics[A]. Proc Int Conf on Tribology[Z]. C246187, 1987.919-923.
-
5CLAYTON P. The Relations Between Wear Behavior and Basic Material Properties for Pearlitic Steels[J]. Wear, 1980, 60:75-93.
-
6HELLER W, SCHWEITAER R. Hardness Microstructure and Wear Behaviors of Rail Steel[A]. Proc 2 nd Int Heavy Haul Railways Conf[Z]. Chicago, 1982.282-286.
-
7KALOUSEK J, FEGREDO D, LAUFER E. The Wear Resistance and Worm Metallography of Pearlite Bainite and Tempered Martensite Rail Streel Miscrostructure of High Hardness[J]. Wear, 1985, 105:199-222.
-
8HODSON W H, PRESTON R R. Production Processes to Yield Superior Rail Steel[J]. Transp Rec, 1988,1 774:150-162.
-
9ICHINOSE H, TAKEHARA J. An Investigation on Contact Fatigue and Wear Resistance Behaviors of Rail Steel[A]. Proc Heavy Haul Conf[C]. Chicago, 1982. 113-121.
-
10SUGINO K K, AGEYAMA K, MASUMOTO H. Development of Weldable High Strength Steel[A]. Proc Int Heavy Haul Conf[C]. Chicago, 1982. 113-121.
-
1王俊,杨汉国,张力宁,舒光冀.细观力学实验技术在金属基复合材料研究中的应用[J].铸造,1996,45(9):12-14.
-
2蒋咏秋.第十届国际复合材料会议关于复合材料设计的宏观力学、细观力学与微观力学的讨论和研究动向[J].应用数学和力学,1996,17(8):758-760.
-
3洪宝宁,徐涛.夹杂物附近循环塑性应变场的细观力学实验研究[J].东南大学学报(自然科学版),1997,27(4):126-130.
-
4孙慧玉.三维编织复合材料力学行为研究进展[J].材料科学与工程学报,2010,28(1):140-144. 被引量:9
-
5伍章健.复合材料界面和界面力学[J].应用基础与工程科学学报,1995,3(3):80-92. 被引量:17
-
6郑晓霞,郑锡涛,缑林虎.多尺度方法在复合材料力学分析中的研究进展[J].力学进展,2010,40(1):41-56. 被引量:56
-
7杨庆生.智能复合材料的增韧机理与能量释放率[J].北方交通大学学报,1997,21(4):381-384.
