Micro-scale energy dissipation mechanisms during dynamic fracture in natural polyphase ceramic blocks

被引：30

作者：

Hogan, James D. ^{[1
,2
]}

Spray, John G. ^{[2
]}

Rogers, Robert J. ^{[1
]}

Boonsue, Suporn ^{[2
]}

Vincent, Gregory ^{[3
]}

Schneider, Markus ^{[3
]}

机构：

[1] Univ New Brunswick, Dept Mech Engn, Fredericton, NB E3B 5A3, Canada

[2] Univ New Brunswick, Planetary & Space Sci Ctr, Fredericton, NB E3B 5A3, Canada

[3] French German Res Inst St Louis, F-68300 St Louis, France

来源：

INTERNATIONAL JOURNAL OF IMPACT ENGINEERING | 2011年 / 38卷 / 12期

基金：

加拿大创新基金会; 加拿大自然科学与工程研究理事会;

关键词：

Dynamic brittle fragmentation; Railgun impact experiment; Thermal effects in cracking; Micro-scale energy dissipation; Elastic heat dissipation in fracture; ACOUSTIC-EMISSION; BALLISTIC IMPACT; GRAIN-SIZE; FRAGMENTATION; CRACK; ARMOR; TIP; PROPAGATION; HARDNESS; GRANITE;

D O I：

10.1016/j.ijimpeng.2011.06.004

中图分类号：

TH [机械、仪表工业];

学科分类号：

0802 ;

摘要：

The dynamic fracture of natural polyphase ceramic (granite) blocks by high-speed impact at 207 m/s, 420 m/s and 537 m/s has been investigated. An electromagnetic railgun was used as the launch system. Results reveal that the number of fragments increases substantially, and the dominant length scale in their probability distributions decreases, as the impact energy is increased. Micro-scale studies of the fracture surfaces reveals evidence of localized temperatures in excess of 2000 K brought on by frictional melting via fracturing and slip along grain boundaries in orthoclase and plagioclase, and via transgranular fracture (micro-cracking) in quartz. The formation of SiO2- and TiO2-rich spheroids on fracture surfaces indicates that temperatures in excess of 3500 K are reached during fracture. (C) 2011 Elsevier Ltd. All rights reserved.

引用

页码：931 / 939

页数：9

共 19 条

[1] Debris Field Kinetics during the Dynamic Fragmentation of Polyphase Natural Ceramic Blocks
Hogan, J. D.
Rogers, R. J.
Spray, J. G.
Vincent, G.
Schneider, M.
EXPERIMENTAL MECHANICS, 2014, 54 (02) : 211 - 228
[2] Energy Dissipation Due to Surface Asperity: A Micro-scale Study
Wang, Can
Deng, An
Taheri, Abbas
PROCEEDINGS OF GEOSHANGHAI 2018 INTERNATIONAL CONFERENCE: FUNDAMENTALS OF SOIL BEHAVIOURS, 2018, : 975 - 983
[3] Micro-scale Fracturing Mechanisms in Rocks During Tensile Failure
Shams, Ghasem
Rivard, Patrice
Moradian, Omid
ROCK MECHANICS AND ROCK ENGINEERING, 2023, 56 (06) : 4019 - 4041
[4] Micro-scale Fracturing Mechanisms in Rocks During Tensile Failure
Ghasem Shams
Patrice Rivard
Omid Moradian
Rock Mechanics and Rock Engineering, 2023, 56 : 4019 - 4041
[5] Metal ceramic interface toughness II: Mechanisms of fracture and energy dissipation
Kiely, JD
Bonnell, DA
JOURNAL OF MATERIALS RESEARCH, 1998, 13 (10) : 2881 - 2887
[6] Metal ceramic interface toughness II: Mechanisms of fracture and energy dissipation
J. D. Kiely
D. A. Bonnell
Journal of Materials Research, 1998, 13 : 2881 - 2887
[7] Towards an accurate description of the dissipation gradients at the micro-scale to describe the basic fatigue mechanisms
Masquelier, I.
Marco, Y.
Le Saux, V.
Calloch, S.
Charrier, P.
Rouillard, F.
CONSTITUTIVE MODELS FOR RUBBER VIII, 2013, : 365 - 370
[8] Debris Field Kinetics during the Dynamic Fragmentation of Polyphase Natural Ceramic BlocksEjecta Measurements and Damage Modes
J. D. Hogan
R. J. Rogers
J. G. Spray
G. Vincent
M. Schneider
Experimental Mechanics, 2014, 54 : 211 - 228
[9] Prediction of Transport Properties of Deformed Natural Fracture Through Micro-scale Hydro-mechanical Modeling
Raziperchikolaee, S.
Alvarado, V.
Yin, S.
TRANSPORT IN POROUS MEDIA, 2014, 104 (01) : 1 - 23
[10] Influence of Methocel cellulose ether additive on micro-scale friction, abrasion and energy dissipation of rough-heterogeneous particles
Jing Ren
Haiwen Li
Kostas Senetakis
Gao-Feng Zhao
Granular Matter, 2022, 24

← 1 2 →