fiber reinforced materials 中文意思是什麼

fiber reinforced materials 解釋
纖維加強材料
  1. Taking the andalusite from south africa and alumina fiber as raw materials, adding aluminum sulphate as binder, fabrication and properties of alumina fiber reinforced andalusite composite was studied through wet dispersion, mould pressing and sintering processes

    以紅柱石和氧化鋁纖維為原料,用硫酸鋁作為結合劑,經過分散、混合、半干法成型、高溫燒成工藝,對氧化鋁纖維增強紅柱石基復合材料的制備及性能進行了研究。
  2. With the filling of diabase, the mechanical properties of the composite increased first and then decreased with a top tensile strength of 56. 5mpa and a top impact strength of 70. 1mpa. these illuminated that the diabase fiber reinforced pvc composites could be used as structure materials

    復合材料的力學性能隨著輝綠巖的增加先升后降,復合材料拉伸強度最高可達56 . 5mpa ,復合材料沖擊強度最高可達70 . 1mpa ,說明輝綠巖纖維增強pvc復合材料作結構材料使用。
  3. At present carbon fiber - reinforced composite is developed to use in some aero - engine components in our country. using the numerical method and fatigue damage theory, the buckling and fatigue on the composite materials and composites case are studied for aero - engine design

    本文從實際工程背景出發,利用板殼理論和現代數值分析技術的研究成果,結合疲勞累積損傷理論,對航空發動機用的復合材料及其機匣結構的屈曲與疲勞壽命問題開展了較為系統深入的研究。
  4. Products function : put our “ sun shine ” brand carbon steel fiber evenly seep into concrete to form steel fiber reinforced concrete and it can decrease the thickness of reinforced concrete by half, it not only shorten the project time, save the material and manpower expense, bring distinct economic benefit, but also increase the performance of crack resistance, percussion resistance, tensile strength, bend resistance. scosspr resostamce amd wear resistance of the reinforced base materials. if the weight ratio of 2 % steel fiber seep into the concrete, it can solve the brittleness problem of the concrete, in the condition of 60 % ralative air humidity, after 21days air - dry, even 520 days air - dry, it ' s difficult to find any crack by eyesight, the bend resistance for the steel fiber concrete is 140 times stronger than the concrete without steel fiber, the capability of impact resistance increase 10 times

    產品功能:將本公司「雙興」牌碳鋼纖維系列產品均勻地摻入混凝土中,形成鋼纖維增強混凝土,可使工程中鋼筋混凝土的施工厚度降低一半,不僅縮短了施工工期,節省了材料和人工費用,帶來顯著的經濟效益,且增強了基體的抗裂、抗沖擊、抗彎、抗剪、耐磨擦等性能,如摻入本公司2 %鋼纖維的混凝土,不僅解決了混凝土的脆性問題,在空氣相對濕度60 %的條件下風干21天後,甚至在風干520天,肉眼很難發現裂縫,摻入鋼纖維后的增強混凝土比不摻鋼纖維的混凝土抗彎強度提高140倍,耐沖擊荷載提高10倍。
  5. High speed cutting, water jet machining and laser machining technology are applied to kevlar fiber reinforced resin matrix composites and special kind rubber materials. valuable conclusions are obtained by experimenting investigation in chapter 8

    論文在第八章還進行了凱芙拉纖維增強聚合物基復合材料、特種橡膠材料的高壓水射流、激光和高速切削加工試驗研究,取得了有參考價值的結論。
  6. This paper summarized the characteristics of continuous fiber reinforced thermoplastic matrix composite ( cfrtp ), the development of its raw materials, the existing preparation techniques at home and abroad and its application foreground in civil engineering field

    摘要本文綜述了加固用連續纖維增強熱塑性樹脂基復合材料( cfrtp )預製片材的特點、原材料的發展情況、國內外現有的制備技術。
  7. Continuous carbon fiber reinforced silicon carbide ceramic matrix composites ( cysic ) are considered as the most promising thermal structural candidate materials for aerospace, energy and nuclear technologies etc. as a key technology for improving high - temperature structural applications of the materials, oxidation protection with anti - oxidation coating system had being paid more and more attentions

    連續碳纖維增強碳化硅陶瓷基復合材料( c sic )是一種極具潛力的高溫結構復合材料,在航空航天、能源及核技術等領域有著廣闊的應用前景。為了推進材料的高溫應用,對防氧化塗層已開展了廣泛的研究,但是對目前廣泛採用的cvdsic塗層的缺陷控制鮮有研究。
  8. Recently, an advanced composite material named carbon fiber reinforced plastic ( cfrp ) has emerged as an alternative to traditional strengthening materials. many advantages such as lightweight, non - corrosive, simple construction, and high tensile strength make it widely used in strengthening field

    碳纖維布( cfrp )加固修補混凝土結構技術是一項新興的結構加固技術,它是利用樹脂類膠結材料將碳纖維材料粘貼于混凝土表面,從而達到對結構構件補強加固及改善結構受力性能的目的。
  9. This paper introduced manufactures and applications of multiaxial fabric, frp pipe and tank, frtp ( fiber reinforced thermoplastics ) as well as composite materials institute of universities in germany and spain

    摘要本文介紹了德國、西班牙多軸向織物、玻璃鋼管道與貯罐,熱塑性纖維增強塑料的製造和使用,以及大學復合材料研究所的情況。
  10. Through analyzing the scaling mechanism of water injection system in mawangmiao oilfield, applying the measure of scaling prevention, such as improving injection water quality, using glass fiber reinforced plastic materials, changing tubing string structures, and adopting new inhibited acid for acid dipping, the water injection forming scaling in mawangmiao oilfield has been solved, and the water injection development effect has been improved correspondingly in oilfield

    通過對馬王廟油田注水系統結垢原理分析,改善注入水水質、使用玻璃鋼材料、改變管柱結構和採用新型緩蝕酸浸泡等防垢措施,較好地解決了馬王廟油田注水系統結垢問題,相應改善了油田注水開發效果。
  11. Based on the discussion above, a primary comparative experiment of concrete columns externally wrapped with hfrp, carbon fiber reinforced polymer ( cfrp ) and high - strength glass fiber reinforced polymer ( sgfrp ) was carried out to study the ductility, load carrying capacity, strengthening cost of strengthened columns and the exerting efficiency of cf. test results showed that the hfrp can fully exploit the advantages and overcome shortages of the materials

    在此基礎上,以加固柱的延性、承載力、加固價格和cf性能發揮效率為指標,設計並進行了hfrp 、碳纖維復合材料( cfrp )和高強玻璃纖維復合材料( sgfrp )加固柱的探索性對比實驗研究,結果表明hfrp充分發揮了兩種纖維各自的性能優勢,克服了單一frp的缺點。
  12. In this paper, the vacuum thermo - cycling effects and vacuum ultraviolet effects on space inflatable structural materials were analyzed based on a thorough survey over the studies done through flight tests, ground simulation experiments and theoretical research. the main contents of this thesis are as follows : the performance damage effects of thermo - cycling on space inflatable structural fabric carbon fiber reinforced epoxy laminates ( cf / ep ), aluminized kapton ( al / kapton ) films which used as reflector of space inflatable antenna were investigated by a temperature range of - 120 120 with the vacuum degree 10 - 5 pa which conducted with space environment ground - based simulation facility

    本文在對國內外飛行試驗、地面模擬試驗以及理論研究等所取得的成果調研的基礎上,針對空間充氣結構材料進行地面模擬真空熱循環與真空紫外輻照的研究工作:利用真空熱循環地面模擬試驗機研究了真空環境( 10 - 5pa )中- 120 120的熱循環條件下空間充氣支撐結構織物碳纖維增強環氧樹脂( cf / ep )層合材料、空間充氣展開天線反射面鍍鋁聚酰亞胺( al / kapton )薄膜的空間環境效應。
  13. This paper expounds a series of the construction techniques for the paving of steel fiber reinforced concrete deck including the requirements for the raw materials, the preparation of the construction, and the mixing, transporting, pouring and curing of the mixtures for the purpose of guaranteeing the quality and schedule of the construction of paving the steel fiber reinforced concrete deck

    論述了鋼纖維混凝土橋面鋪裝施工的原材料要求、施工準備、混合料拌和、運輸、澆築、養生等一系列施工工藝,以提高鋼纖維混凝土橋面鋪裝的施工質量與進度。
  14. Based on this equation we can predict the strain of composites by the change of resistivity and a series of carbon fiber reinforced resin smart composite materials are produced with the ability of self - examine and self - diagnose

    應用該模型,可以根據電阻率的變化值確定復合材料的應變,由此可制備一系列具有自檢測、自診斷能力的碳纖維增強樹脂基智能復合材料。
  15. It has great influence of product ' s performance of fiber - reinforced plastic, such as thickness, intension, gas closeness and cutting intensity etc. the higher resin viscosity is, the poorer its ability of moving and the worse proportioned of resin on the surface of raw and processed materials

    粘度測量在石油、化工、紡織、國防、機械和電力等行業應用非常廣泛。它對纖維增強塑料製品的性能的影響很大,主要表現在制品的厚度、強度、氣密性和剪切強度等。
  16. Focusing on serious damage of carbon fibers in ceramic matrix composites ( cmcs ) prepared by precursor infiltration pyrolysis ( pip ), and with emphasis on carbon fiber reinforced silicon carbide composites ( cf / sic ) derived from polycarbosilane ( pcs ), the influences of raw materials ( including carbon fibers and precursors, etc. ) and preparing conditions on carbon fiber damage during the preparation of cf / sic composites were investigated systemically. pyrolysis process, fiber - matrix interface and carbon fiber damage process were observed by sem, tem, ir, xrd, xps and tq etc. the characterization method of carbon fiber damage degree was established and the models for carbon fiber damage mechanism were also established. the carbon fiber coatings and unidirectional cf / sic composites with coated carbon fibers were prepared and studied

    本文針對先驅體浸漬裂解工藝制備陶瓷基復合材料過程中碳纖維損傷嚴重的問題,以聚碳硅烷( pcs )制備cf / sic復合材料為重點,採用sem 、 tem 、 ir 、 xrd 、 xps 、 tg等表徵手段,分析了先驅體裂解過程、纖維基體界面和碳纖維損傷過程,系統地研究了原料(碳纖維、先驅體等)和制備工藝條件等在cf / sic復合材料制備過程中對碳纖維損傷的影響,建立了碳纖維損傷程度的表徵方法和損傷機理模型,制備了纖維表面塗層並利用塗層碳纖維制備了單向cf / sic復合材料。
  17. Strengthening of concrete beams with externally bonded carbon fiber reinforced plastic ( cfrp ) materials appears to be a feasibe way of increasting the load - carrying capacity and stiffness characteristics of existing structures. cfrp strengthened cocrete beams can fail in involve steel yield - cfrp tenside rupture and steel yield - concrete crushing

    用碳纖維復合材料( cfrp )加固修復混凝土結構,增強體(碳纖維)和基體(環氧樹脂)應有良好的界面粘結強度,這是一種行之有效的加固方法,它可以提高現有結構物的承載能力和剛度。
  18. This paper analyses the problem of concrete cracking and leakage, and set up the model of the middle or low - strength steel slag anti - cracking and impermeable concrete ( acic ) on the base of the analysis. the four principles of water permeable resistance character, volume stability character, toughness and anti - chemical corroded character have been put forward for raw materials selection and durability design of acic, acic is designed by the theory of composite material and the theory of fiber - reinforced, and two series of acic, such as fly ash series and steel slag series, have been manufactured by means of mineral admixture, hybrid fiber and chemical admixture. hydrating heat, macro - mechanics quality, durability and microstructure of the acic have been researched

    本文對中低標號大體積混凝土滲透開裂問題進行了研究,從混凝土自身結構形成與經濟角度指出大摻量粉煤灰與膨脹劑復合配製大體積混凝土的問題所在,提出採用鋼渣微細礦粉配製中低標號防滲抗裂混凝土的思路,運用復合材料理論設計中低標號防滲抗裂混凝土,提出了低水化熱、抗滲性能、體積穩定性、韌性和抗沖磨性能是中低標號防滲抗裂混凝土材料選擇和耐久性設計的主要原則,採用鋼渣微細粉復合混雜纖維、化學外加劑的技術路線,配製了適合於深水等特殊環境中的大體積中低標號鋼渣系列防滲抗裂混凝土,對其進行水化特性、宏觀物理力學性能、耐久性和微觀結構研究。
  19. Based on the basic principles of densified systems containing homogeneously arranged ultra - fine particles ( dsp ) and reactive powder concrete ( rpc ) adopted by foreign researchers specialized in building materials, silica rume, ultra - fine fly ash, quartz powder, 52. 5 - class portland cement and superplasticizer were selected and mixed, the theoretic of mixed steel fiber reinforced cement - based composite materials and of micro - aggregate filling voids were applied, the composition was adjusted, the mixture ratio of rpc was optimized, a suitable curing schedule was adopted, in the result, an ultra - high performance concrete designated rpc was successfully prepared by normal technology methods

    本文基於超細粒聚密材料( dsp )和活性粉末混凝土( rpc )配製的基本原理,選用硅灰、粉煤灰、石英粉和硅酸鹽水泥,輔以高效減水劑,採用多重復合的技術路線,運用混雜鋼纖維增強理論和微集料填充密實原理,調整材料組成,優化混凝土配合比,結合適宜的養護制度,在現有技術條件下,成功制備出了rpc200材料。
  20. Carbon fiber reinforced silicon carbide composite ( c / sic ) is one of the most promising thermal - structure materials up to 1650 for aero engines. it is very significant to deeply understand the oxidation mechanisms and establish the oxidation kinetic models for the design and application of c / sic composites

    C sic復合材料是一種有希望滿足航空發動機熱端部件1650工作溫度需要的結構材料,深入了解其氧化機理並建立氧化動力學模型對c sic復合材料的設計和應用具有重要的指導意義。
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