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鏉愭枡鐤插姵涓庢柇瑁傚疄楠屽浜?014骞村紩杩涗簡宀涙触Servopulser楂樻俯鍘熶綅鐤插姵璇曢獙鏈猴紝閰嶅悎JSM-6510鐢靛瓙鏄惧井闀滀娇鐢ㄣ€傝璁惧宸茶繍琛?骞达紝鐩墠杩愯鐘舵€佽壇濂姐€傜鐞嗕汉鍛樹娇鐢ㄨ繖鍙拌澶囧府鍔╅噾灞炴墍澶氫釜璇鹃缁勫拰鍥藉唴澶氬闄㈡牎瀹屾垚浜嗗ぇ閲忕鐮斿師浣嶅垎鏋愬伐浣滐紝寮€灞曚簡鍖呮嫭楂樻俯鍚堥噾锛岄挍鍚堥噾锛屼笉閿堥挗锛岀粨鏋勯挗銆侀摑鍚堥噾绛夐噾灞炴潗鏂欏強浠跨敓澶嶅悎鏉愭枡鐨勬柇瑁傛満鐞嗗垎鏋愬伐浣溿€傝璁惧鐨勪紭鍔垮湪浜庡彲閫氳繃瀹炴椂瑙傚療鏉愭枡鍦ㄥ崟鍚戞垨浜ゅ彉杞借嵎涓嬬殑鐤插姵瑁傜汗鎵╁睍鎴栫粍缁囪浆鍙樿繃绋嬶紝甯姪绉戠爺浜哄憳鍒嗘瀽鏉愭枡鍦ㄥ娓╁拰楂樻俯涓嬬殑鍙樺舰鍜岀柌鍔冲紑瑁傛満鐞嗭紝瀵规潗鏂欐姉鐤插姵鎬ц兘鐨勪紭鍖栨彁渚涙敮鎸侊紝杩樿兘澶熸洿鐩磋鐨勫垎鏋愭潗鏂欏湪娓╁害鍜屽簲鍔涘叡鍚屼綔鐢ㄤ笅鐨勭粍缁囪浆鍙樿繃绋嬨€傚湪楂樻俯鍘熶綅娴嬭瘯鏂归潰锛岃棰樼粍寮€灞曚簡鍙戝姩鏈洪摳閫犻摑鍚堥噾娲诲鍦ㄧ儹鏆撮湶杩囩▼涓殑缁勭粐杞彉杩囩▼锛岃繕寮€灞曚簡鐕冩皵杞満楂樻俯娑傚眰鍦ㄩ煣鑴嗚浆鍙樺尯闂寸殑寮€瑁傛満鐞嗗垎鏋愬伐浣溿€傛澶栵紝璇鹃缁勮嚜琛岃璁″す鍏凤紝鏀瑰彉鍔犺浇鏂瑰紡锛岄€氳繃瀹炴椂璁板綍瑁傜汗闀垮害涓庤浇鑽峰彉鍖栧叧绯伙紝寰楀埌浠跨敓鏉愭枡鍙婂鍚堟潗鏂欑殑鏂闊ф€э紝閫氳繃鏀瑰彉鎴愬垎鍜岀粨鏋勶紝鐮旂┒鍏锋湁鏈€浣崇患鍚堟€ц兘鐨勬潗鏂欍€侟/p>

鍥 1.璁惧鐓х墖

鍥 2.楂樻俯瀹為獙鏍峰搧鐓х墖

Part 1浼犵粺鏉愭枡鐤插姵寮€瑁傛満鐞嗗垎鏋忺/p>

鍥 3.鍘嬪埗鐭冲ⅷ閾搁搧鐤插姵鐨勮绾规墿灞曡繃绋嬪強寮€瑁傛満鍒跺浘

閫氳繃鍘熶綅鐤插姵璇曢獙锛岀爺绌朵汉鍛樺垎鏋愬帇瀹炵煶澧ㄩ摳閾佺柌鍔虫柇瑁傛満鐞嗕负锛氳〃闈㈢煶澧ㄨ劚绮樺紩璧疯绾癸紝瑁傜汗娌胯爼铏姸鐭冲ⅷ绨囨墿灞曪紝瑁傜汗灏栫鐢变簬瀛樺湪搴斿姏闆嗕腑瀵艰嚧鍛ㄥ洿閾佺礌浣撳嚭鐜板鎬у彉褰€€傝绾归€氳繃鍒囧壊鑴辩矘鐭冲ⅷ棰楃矑闂寸殑閾佺礌浣撴墿灞曞拰鐩镐簰杩炴帴銆傝绾瑰垏杩囨暣涓搧绱犱綋鍖哄悗褰㈡垚涓昏绾癸紝褰撲富瑁傜汗鍒囩┛鐝犲厜浣撴椂锛屽嚭鐜版渶缁堟柇瑁傘€侟/p>

鍙傝€冩枃鐚細Qiu Y, Pang J C, Zou C L, et al. Fatigue strength model based on microstructures and damage mechanism of compacted graphite iron[J]. Materials Science and Engineering: A, 2018, 724: 324-329.

Part 2楂樻俯鍚堥噾鐤插姵寮€瑁傛満鐞嗗垎鏋忺/p>

鍥 4.楂樻俯鍚堥噾娑¤疆鐩樹綆鍛ㄧ柌鍔宠绾规墿灞曡繃绋嬪強鐤插姵婧愬尯鐨勭浉鍒嗘瀽

鍒嗘瀽浜哄憳鍦ㄧ‘璁ら噸鍨嬬噧姘旇疆鏈烘丁杞洏琛ㄩ潰寰缂洪櫡鏄摳閫犺繃绋嬩腑閫氶亾鍋忔瀽鐨勫熀纭€涓婏紝鍦ㄥ師浣嶄綆鍛ㄧ柌鍔宠瘯楠岃繃绋嬩腑锛屽疄鏃惰瀵熶簡鐤插姵瑁傜汗鐨勮悓鐢熷拰鎵╁睍杩囩▼锛岄€氳繃瑙傚療瀹為獙鍚庢柇闈笂鐤插姵婧愬尯鐨勫井瑙傛柇瑁傜壒寰侊紝纭畾杩欑娑¤疆鐩樺亸鏋愬尯鍩熷唴瀵岄挍鍋忔瀽鍖哄唴鐨凩aves鐩稿拰MC鍨嬬⒊鍖栫墿浼氫績杩涙丁杞洏琛ㄩ潰鐤插姵瑁傜汗鐨勮悓鐢熻繃绋嬨€侟/p>

鍙傝€冩枃鐚細Zhang H Y, Qu S, Dong C, et al. Characterization and cause analysis of the 鈥渂right spots鈥 on the surface of a GH2674 large-size gas turbine disk[J]. Engineering Failure Analysis, 2022, 140: 106559.

Part 3澧炴潗鍒堕€犻噾灞炴潗鏂欏彉褰㈣涓虹爺绌迭/p>

鍥 5. 3D鎵撳嵃閾濆悎閲戠己闄风殑鍙樺舰琛屼负

鐮旂┒浜哄憳鍒╃敤鍘熶綅鎵弿鐢甸暅锛屽疄鏃惰瀵熶簡3D鎵撳嵃4绉嶅舰鎬佺殑缂洪櫡鍦ㄦ媺搴斿姏浣滅敤涓嬬殑鍙樺舰鎯呭喌锛屽緱鍑虹己闄锋紨鍙樹笌缂洪櫡鐨勫嚑浣曞舰鐘跺拰杞村悜鏂瑰悜鏈夊叧锛氬渾褰㈢己闄风殑鍙樺舰鑳藉姏鏈夐檺锛岃€屼笌杞村悜鍔犺浇鏂瑰悜鍨傜洿鐨勮绾圭己闄峰湪鎷夊簲鍔涗綔鐢ㄤ笅浼氬彉瀹斤紝鍗婂渾褰㈢啍姹犵晫闈㈤檮杩戠殑瑁傜汗鐘剁己闄峰€惧悜浜庢部璇ョ晫闈㈡墿灞曘€侟/p>

鍙傝€冩枃鐚細Ben D D, Ma Y R, Yang H J, et al. Heterogeneous microstructure and voids dependence of tensile deformation in a selective laser melted AlSi10Mg alloy[J]. Materials Science and Engineering: A, 2020, 798: 140109.

Part 4浠跨敓鏉愭枡鏂闊ф€ц瘎浠饵/p>

鍥 6.鏂板瀷涔夐娇鏉愭枡鐨勫井瑙傝绾规墿灞曞舰璨屽強鏂闊ф€ц瘎浠饵/p>

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鍙傝€冩枃鐚細Tan G, Zhang J, Zheng L, et al. Nature-Inspired Nacre-Like Composites Combining Human Tooth-Matching Elasticity and Hardness with Exceptional Damage Tolerance[J]. Advanced Materials,2019,31(52):1904603.DOI:10.1002/adma.201904603.