例句與造句

1. The relationship of interface temperature and interface bonding strength of aluminum alloy - steel transition joints in welding is analyzed through simulative heating treatment tests
   摘要通過(guò)模擬熱處理試驗(yàn)，分析了焊接時(shí)界面溫度與界面結(jié)合強(qiáng)度的關(guān)系。
2. Through interface temperature stress theory countsthe mathematical formula to under the temperature and the load together functionthe analysis , may clear knowing the frp sheet in the two to reinforced theconcrete beam the interface stress distributed form together
   通過(guò)對(duì)溫度和載荷共同作用下界面溫度應(yīng)力理論計(jì)算式的分析,可以清楚的知道在二者共同作用frp片材補(bǔ)強(qiáng)混凝土梁的界面應(yīng)力的分布形式。
3. Ultrasonic plastic welding theory is generated by the generator 20khz or 15khz pressure , high - frequency signals , the system can be adopted for the high - frequency signals into mechanical vibrations , and in plastic products working , through working surface and internal friction among elements spread by the department of the interface temperature , when the temperature reached the melting point of her own , that the working interface rapid melting , and then fill in the gaps between the interfaces when shock stop working at a certain pressure and cooling will be a perfect welding
   的高壓高頻信號(hào)通過(guò)換能系統(tǒng)，把信號(hào)轉(zhuǎn)換為高頻機(jī)械振動(dòng)，加于塑料制品工件上，通過(guò)工件表面及內(nèi)在分子間的磨擦而使傳處到接口的溫度升高，當(dāng)溫度達(dá)到此工件本身的熔點(diǎn)時(shí)，使工作接口迅速溶化，繼而填充于接口間的空隙，當(dāng)震動(dòng)停止，工件同時(shí)在一定的壓力下冷卻定形成完美的焊接.點(diǎn)擊數(shù)： 723錄入時(shí)間： 2006 - 5 - 14
4. In this paper i have done several worksuch as : coefficient of thermal expansion of frp sheet is larger different thanthat of the concrete . the interface of frp sheet reinforced concrete will producetemperature stress under the circumstance of temperature difference . i n order todesign the reinforced structure and evaluate safely , it is very significant toanalyse the interface temperature stress and to find the changing law of interfacetemperature stress
   本文重點(diǎn)分析了frp片材補(bǔ)強(qiáng)混凝土梁界面溫度應(yīng)力分布理論,解決補(bǔ)強(qiáng)方面的一些工程問(wèn)題,主要完成了以下幾個(gè)方面的研究工作:首先, frp片材的熱膨脹系數(shù)與混凝土的熱膨脹系數(shù)相差較大,在環(huán)境溫差作用下, frp片材補(bǔ)強(qiáng)混凝土界面將產(chǎn)生界面溫度應(yīng)力,正確分析界面溫度應(yīng)力和界面應(yīng)力變化規(guī)律,對(duì)補(bǔ)強(qiáng)結(jié)構(gòu)設(shè)計(jì)和安全評(píng)價(jià)具有重要的意義。
5. Moreover the findings also indicatedthe interface temperature stress and the basis concrete rigidity relations is not big . then , the stress distributing under load is studied , passing the four - pointbending model to analyse the interface stress under load , and giving the limitload expression of rupture destroying . analysis the interface stress under the thetemperature and stress action
   其次,研究了在載荷作用下界面應(yīng)力分布,通過(guò)經(jīng)典的4點(diǎn)彎曲模型對(duì)在載荷作用下的界面應(yīng)力進(jìn)行了分析,給出了frp片材發(fā)生斷裂破壞時(shí)的極限承載力表達(dá)式,并綜合考慮了溫度和載荷共同作用下界面應(yīng)力分布問(wèn)題。
6. It's difficult to find interface temperature in a sentence. 用interface temperature造句挺難的
7. In order to carries on the theoretical calculation to theinterface temperature stress , therefore established the frp sheet reinforcedconcrete beam interface temperature stress quantitative evaluation formula . inorder to confirm the theory the rationality , this paper designed cfrp , gfrp , thekevlar textile fiber has been certain difference in temperature and in the differentlayer interface temperature stress , moreover also has studied in the same layerand temperature difference of the interface temperature stress
   為了對(duì)界面溫度應(yīng)力進(jìn)行理論計(jì)算,所以建立了frp片材補(bǔ)強(qiáng)混凝土梁界面溫度應(yīng)力定量計(jì)算公式,為了驗(yàn)證理論的合理性,本文設(shè)計(jì)了cfrp 、 gfrp 、 kevlar纖維在溫差一定和不同層數(shù)情況下界面溫度應(yīng)力,另外還研究了層數(shù)溫差不等的情況下界面溫度應(yīng)力。
8. ( 4 ) thermal pipelines are important parts of concentrated heat supply of the thermoelectricity combination . according to the thermal lube service prospect , the paper calculates thickness of the buried steam pipe , proposes a new opinion of the interface temperature controlling method , and also attempt to determine the resistance loss of the minimal steam tubes and wrote its program
   ( 4 )熱力管網(wǎng)是熱電聯(lián)產(chǎn)集中供熱系統(tǒng)的重要組成部分，本文根據(jù)熱力管道的發(fā)展趨勢(shì)，對(duì)直埋蒸汽管道的保溫層厚度計(jì)算，提出采用界面溫度控制法的見(jiàn)解，并進(jìn)行編程計(jì)算，此外，還對(duì)直埋蒸汽主管道阻力損失進(jìn)行編程計(jì)算的嘗試。