發狀裂紋 的英文怎麼說
中文拼音 [fāzhuànglièwén]
發狀裂紋
英文
hair crack-
There are typical laminated structure, soft sedimentary - slipping deformed structure, syngenetic brecciated structure in the ore which are the mirror of syngenetic sedimentation. the other type of ore has the charactristic of epigenetic mineralization, which is called as telescoped ore. the ore occurs in vein, pocket, lensoid and bedd
礦石中發育典型的紋層狀構造、軟沉積滑動變形構造、同生角礫構造等反映同生沉積特徵的礦石構造;另一類礦石具有明顯的後生成礦特點,稱之為疊生改造型礦石,礦石產于脈狀、囊狀、透鏡狀及似層狀礦體中,與燕山期巖漿巖及斷裂裂隙構造關系密切。Modern medical uses include : bronchitis, diarrhea, dysentery, hyperthyroidism, stretch marks, thrush, ulcers, vaginal thrush, viral hepatitis, asthma, athlete ' s foot, candida, catarrh ( mucus ), coughs, eczema, digestion, dyspepsia ( impaired digestion ), flatulence ( gas ), fungal infections, gingivitis, gum infections, hemorrhoids, support immune system, mouth ulcers, decongest prostate gland, ringworms, sore throats, skin conditions ( chapped and cracked ), skin inflammation, wounds, and wrinkles, toothpastes, mouthwashes, cosmetics, and food flavorings
現代的醫藥用途包括:支氣管炎,腹瀉,痢疾,甲狀腺機能亢進,緊張,鵝口瘡,潰瘍,陰道的鵝口瘡,哮喘,腳癬,粘膜炎,咳嗽,濕疹,消化不良,腸胃氣脹,真菌感染,齒齦炎,齒齦感染,痔瘡,支持免疫系統,口潰瘍,解除前列腺充血,癬茵病,咽喉痛,皮膚問題(乾燥和裂開) ,皮膚發炎,傷口和皺紋,還可用作牙膏,漱口水,化妝品和食物調味料。= " jw33 fragmentation grenade. cast iron construction with raised waffle pattern. ? granular tnt filler provides for a powerful, highly lethal blast radius.
" jw33爆裂榴彈。帶有發泡網格花紋的鑄鐵質地。由顆粒狀的tnt填充,爆炸半徑很大,極具殺傷力。[ enstr ] = " jw33 fragmentation grenade. cast iron construction with raised waffle pattern. ? granular tnt filler provides for a powerful, highly lethal blast radius.
" jw33爆裂榴彈。帶有發泡網格花紋的鑄鐵質地。由顆粒狀的tnt填充,爆炸半徑很大,極具殺傷力。The nano diamond particle improve friction surface lubricate condition, mainly by the nano particle repair and inlay effection nanometer particle deposition in the friction contact region, fills the friction damage spot promptly, has the repair function, simultaneously prevents the crack from further development, achieves the goal of prolong fatigue life
納米金剛石微粒通過微粒修復作用和鑲嵌作用,改善摩擦表面的潤滑狀態。在摩擦過程中,納米微粒沉積在摩擦接觸區域,填補摩擦損傷部位,起到修復作用,同時阻止裂紋的進一步發展,延長了陶瓷球疲勞壽命。The following conclusions are gained : ( 1 ) the located shear band prongs the ligament near the top crack tip and the structure may occur shear - mode fracture at the angle of 155 ? to crack when load is 87. 92mpa ; the mode of fracture of the flange joint structure is not possible to be void - mode ; ( 2 ) it is proved that loading and then unloading repeatedly can not increase the possibility of invalidation of the structure when the times of loading and unloading are not too more when load is operating pressure ; the structure is safe when the vessel is operating ; ( 3 ) in the fe model of the thesis, not considering the influence of water pressure test which is in the process of fabrication of vessel in fe results in larger deviation in analysi
得出了以下結論:在8792mpa的載荷下筒體一封頭連接結構處的集中剪切帶貫穿韌帶,可能發生沿與原裂紋線成155 「角方向剪切型斷裂;筒體一封頭連接結構不可能發生韌窩型斷裂; ( 2 )在工作壓力下進行次數不多的反復加、卸載,結構不會破壞,也不會喪失安定性:結構在工作狀態下是安全的; m在本文的彈塑性有限元模擬計算中,對于裂紋尖端進行力學分析時,不考慮壓力容器製造過程中水壓試驗的影響,將導致計算結果出現較大的偏差; ( 4 )筒體完全屈服時的載荷為92石3mpa ,封頭完全屈服時載荷為86It is important to evaluate accurately the longevity of the part by advance the efficiency of using ae method on detecting crack in fatigue test
改進及提高聲發射技術對疲勞試驗狀態下的裂紋檢測效率和精度,是準確評估直升機各重要構件壽命的關鍵。In certifying that a given crack shape will exemplify leak-before-break behavior, one should consider the effect of crack growth on the applied stresses.
在證實一個給定的襲紋形狀將會發生裂前泄露情況時,我們應考慮裂紋擴展對外載的影響。The micromechanisms of fracture in engineering materials have been studied in this thesis, with particular emphasis on the dislocations behavior in the front of crack tip and the processes of crack nucleation and propagation on nanometer scale. the relation between the microprocesses of fracture and the macromechanical behaviors were investigated, which will be helpful to the strengthening and toughening of engineering materials
本文首先對材料斷裂文獻進行綜述,了解斷裂微觀機理研究的過去成就、現狀和發展,確定本文研究的內容為工程材料斷裂的微觀機理,側重裂尖微區位錯行為和納米尺度上微裂紋形核與擴展過程及微觀組織的影響,斷裂微觀過程與宏觀力學行為的關系,為工程材料的強韌化提供理論依據。Keeping displacement constant, the length of dfz decreased. the less the lattice resistance is, the longer the dfz is. during the crack propagation, the pile - up dislocations may move forward in the previous direction or in another direction which caused shape of dfz changed. the dislocations emitted from the crack tip might pile up in the dfz and can be served as dislocation source in the successive loading
在裂紋擴展過程,反塞積位錯群發生變化,可以沿原來方向繼續向前運動,也可能改變運動方向使無位錯區的形狀發生變化,后來發射出的位錯可以在原五位錯區中塞積,並可作為位錯源在後續的加載中發射位錯。In 420t / h boiler inspecting, the collecting - steam box of reheater and correlative pipelines are detected to appear diffuse crack, which has expansive trend
在對420t h鍋爐的規范檢查當中發現,再熱器集汽箱管座及其附屬管道外壁出現由內而外發散的放射狀裂紋,並且有不斷擴大的趨勢。And then a laminar structure was formed in the front of the crack tip. a microcrack might nucleate at the crack tip and propagate ahead perpendicular to the laminar structure
首次發現純鎂裂尖變形以單系滑移為主,其斷裂過程是滑移減薄,形成層狀結構,然後裂紋垂直於層狀結構擴展。It is one of mechanisms of plastic distortion, at the same time it is also the beginning of microcosmic damage and rupture before the macroscopical destroying of materials, it representatives a mid - state between materials " macroscopical rupture and bend, it is considered a premonitory that the rupture of polymer material, which get common attention by scholar inside and outside nation. therefore, the research for engineering polymer in mechanic action of non - linearity destroy such as distortion, destroy and depe nd on time and temperature is valuable in theoretic research and actual application, which offer the important theoretic gist for changing complex material ' s capability and actualize polymer ' s perfect application with high quality of capability in engineering
同時,銀紋化和銀紋損傷是高聚物特有的一種現象,細觀層次的銀紋引發、生長和斷裂在聚合物損傷斷裂的整個過程中起著承前啟后的作用,它是溝通宏、微觀變形機制的橋梁,是材料塑性變形的機制之一,同時又是材料宏觀破壞以前微觀上損傷、破壞的開始,它代表材料微觀斷裂和屈服之間的一個中間狀態,可以看作是聚合物材料宏觀斷裂的先兆,受到國內外學者們的廣泛關注。因此,開展工程聚合物變形、破壞以及時間相依和溫度依賴性等非線性力學行為研究,探討聚合物破壞過程中的非線性力學行為,為聚合物及其復合材料的改性、實現聚合物的工程化與高性能化提供重要的理論依據,具有重要的理論研究意義和實際應用價值。分享友人