本文關(guān)鍵詞：含微孔洞脆性材料的沖擊響應(yīng)特性與介觀演化機(jī)制，由筆耕文化傳播整理發(fā)布。

含微孔洞脆性材料的沖擊響應(yīng)特性與介觀演化機(jī)制

Sho ck resp onse and evolution mechanism of brittle material containing micro-voids

[1] [2] [3] [4]

Yu Yin, He Hong-Liang, Wang Wen-Qiang, Lu Tie-Cheng （1） （Key Laboratory for Radiation Physics and Technology of Ministry of Education, Department of Physics, Sichuan Universi

[1]四川大學(xué)物理學(xué)院,教育部輻射物理技術(shù)重點(diǎn)實(shí)驗(yàn)室,成都610064; [2]中國(guó)工程物理研究院流體物理研究所,沖擊波物理與爆轟物理實(shí)驗(yàn)室,綿陽(yáng)621900

文章摘要：微孔洞顯著地影響著脆性材料的沖擊響應(yīng)，理解其介觀演化機(jī)制和宏觀響應(yīng)規(guī)律將使微孔洞有利于而無(wú)害于脆性材料的工程應(yīng)用。通過(guò)建立能夠準(zhǔn)確表現(xiàn)材料彈性性質(zhì)和斷裂演化的格點(diǎn)-彈簧模型，本文揭示了孔洞的演化對(duì)于脆性材料的影響。沖擊下孔洞導(dǎo)致的塌縮變形和從孔洞發(fā)射的剪切裂紋所導(dǎo)致的滑移變形產(chǎn)生了顯著的應(yīng)力松弛，并調(diào)制了沖擊波的傳播。在多孔脆性材料中，沖擊波逐漸展寬為彈性波和變形波。變形波在宏觀上類似于延性金屬材料的塑性波，在介觀上對(duì)應(yīng)于塌縮變形和滑移變形過(guò)程。樣品中的氣孔率決定了脆性材料的彈性極限，氣孔率和沖擊應(yīng)力共同影響著變形波的傳播速度和沖擊終態(tài)的應(yīng)力幅值。含微孔洞脆性材料在沖擊波復(fù)雜加載實(shí)驗(yàn)、功能材料失效的預(yù)防、建筑物防護(hù)等方面具有潛在的應(yīng)用價(jià)值。所獲得的沖擊響應(yīng)規(guī)律有助于針對(duì)特定應(yīng)用優(yōu)化設(shè)計(jì)脆性材料的沖擊響應(yīng)和動(dòng)態(tài)力學(xué)性能。

Abstr：Micro-voids significantly affect shock responses of brittle materials. Knowledge about the meso-scale evolution mechanism and macro-scale shock behavior will help to utilize micro-void in applications and avoid its disadvantages. A lattice-spring model, which can represent both elastic property and fracture evolution accurately, is built in this work. Simulations reveal that severe stress relaxation, which is contributed from collapse deformation induced by voids and slippage deformation induced by shear cracks extending from voids, modulates the propagation of shock wave. In a porous brittle material, the shock wave broadens into an elastic wave and a deformation wave. On a macro-scale, the deformation wave behaves as a plastic wave in ductile metal;on a meso-scale, it corresponds to the processes of collapse and slippage deformations. It is found that porosity of the sample determines the Hugoniot elastic limit of material;whereas the porosity and shock stress affect the propagation speed of the deformation wave and stress amplitude in a final state of shock. Brittle materials containing micro-voids have potential applications in complex shock loading experiments, precaution of shock induced function failure, and crashworthiness of buildings. Shock behaviors reported in this work will benefit the design and optimization of shock responses and dynamic mechanical properties of brittle materials used in specific applications.

文章關(guān)鍵詞：

Keyword：:micro-voids，brittle material，shock response，evolution mechanism

課題項(xiàng)目：中國(guó)工程物理研究院重點(diǎn)實(shí)驗(yàn)室專項(xiàng)科研計(jì)劃（批準(zhǔn)號(hào)：2012-專-03）、沖擊波物理與爆轟物理重點(diǎn)實(shí)驗(yàn)室基金（批準(zhǔn)號(hào)：9140C670301120C67248）和國(guó)家自然科學(xué)基金（批準(zhǔn)號(hào)：11272164）資助的課題.

作者信息：會(huì)員可見(jiàn)

  本文關(guān)鍵詞：含微孔洞脆性材料的沖擊響應(yīng)特性與介觀演化機(jī)制，由筆耕文化傳播整理發(fā)布。