Ⅰ 请翻译一下这段英文1,谢谢
材料
对目前的研究中,基体ABS提供
福尔摩沙的股份有限公司。聚丙烯腈的援兵被
基于高强度CFs。材料的性能
采用表1规定的数值。
碳纤维表面处理
碳纤维制成的硝酸氧化沸腾了下
返流性为5 h(T5120uC)。 后来,硝酸
氧化纤维用水清洗蒸馏水来
中性。
纤维表面组成的
纤维是倡导并由x射线电子能谱
300,Scienta谱(能谱、瑞典)来确定的
functionalisation水平的改性后的纤维。 一个
进行了初步调查确定扫描
可察觉的元素,其次是高分辨率的扫描。
整个x射线电子能谱频谱能量
参考C1s高峰的石墨(弯曲
energy5284 ? 5 eV)。
复合制备
前处理、ABS 0.05%,CFs是干的
在真空炉80uC 4小时。复合材料是一种含有0,
5、10、15、20、25 - 30硅油制备- %超临界技术
co-rotating熔体混合了双螺杆挤出机
(Thermoprism谢霆锋16 TC、L / D:24)。 球团矿的ABS
与CFs是美联储从主和侧馈线
分别。熔融复合材料中获得
死亡的挤出机是水冷却并丰富。这
被安排在挤压条件,如图所示
表2。熔体的粘度含有CFs
取决于基体树脂的粘度
随着加工温度。为了避免不利的
剪切条件下,熔体温度保持为高
对于热降解尽可能。
阿兹卡班的囚徒第6章是促进前混合界面
真空干燥的附着力,ABS和尼龙6球团矿
在80uC进行分别为4、12小时。这
0、10、20、30硅油- %阿兹卡班的囚徒第6章包含批次是美联储
通过主要给料机的双螺杆挤出机。这
产生水冷却并劈成小
球团矿。所生产的ABS /尼龙6球团矿是真空
又在80uC干12小时。准备超临界流体
ABS /尼龙6复合材料加固,混合进行了介绍
进了双螺杆挤出机给料机,主要从
和局部是美联储从侧面食具。双螺杆的
双螺杆挤出机运行在相同的工艺条件
用在混合后的准备。
产生的热量又水冷却并砍了
成小颗粒。挤压等级的树脂
用于制造产生的形式,充分。标本
实验的机械的特征性
用实验规模模压成型的注射成型
1998年,模型机(外标法测定供试品;如果乐器)
在一桶230uC和模具温度的温度
80uC的。 使用的注射成型机在这
学习是一个实验室型外标法测定供试品。原则
操作的是,preweighed(g),2 ? 5生的
资料是加载到圆柱桶和被允许的
在一个预调融化在时间中,持续1(min.Then机筒温度
通过熔融塑料是一针咀,推动活塞。
Ⅱ 设备仪表上的SMC是什么意思
SMC 是Sheet molding compound的缩写,翻译成中文是片状模塑料。主要原料由SMC专用纱、不饱和树脂、低收缩添加剂,填料及各种助剂组成。是树脂基复合材料的一种,它在二十世纪六十年代初首先出现在欧洲,在1965年左右,美、日相继发展了这种工艺。我国于80年代末,引进了国外先进的SMC材料生产线和生产工艺。SMC材料具有优越的电气性能,耐腐蚀性能,质轻及工程设计容易、灵活等优点,其机械性能可以与部分金属材料相媲美,因而广泛应用于运输车辆、建筑、电子/电气等行业中。
Ⅲ 科技论文英文翻译中文(材料类)
吸水polyaminosiloxane环氧热固性聚合物
作者: J.C. Cabanelas ,法国兴业Prolongo湾塞拉诺,学者布拉沃,学者Baselga
摘要:摘要
吸水率是一种常见的问题环氧树脂基复合材料,尤其是在界面区域。相反,环氧树脂,有机硅具有疏水性材料。热固性环氧改性有机硅应改善与物理性能,由于减少了水的扩散。双酚A二缩水甘油醚( DGEBA )治愈的合成氨perfunctionalised硅氧烷。吸水率分析了不同的技术,包括近红外光谱( FTIR )吸水率在五二○○厘米- 1和重量。菲克定律扩散系数进行了计算。溶胀平衡树脂还分析。吸收水触发的固化反应强烈,从而使达到高转换率。
&; 2003埃尔塞维尔科学B.诉保留所有权利
Ⅳ 翻译一下 有关化工的英语 汉译英
As for composite materials of the fiber of the carbon, hanging, and sticking to the body of the radical of the resin low and taking and tie of the performance of energy on the surface of hanging with advanced composite materials that it was efficient and one kind of is multifunctional for the surface of the fiber of the carbon were bad, and restricted the development of the performance of the fiber of the carbon. Therefore, the surface of the fiber of the carbon becomes an important road where the character is mended and the performance of the composite materials is improved. There are compare it a lot of mending the method of the character for the surface of the fiber of the carbon, and the technology of cold plasma in that improves the interface, sticks, and ties an easy, effective method of the performance. Plasma..fiber..surface..bombard..fiber..surface..gnaw..cause..as a result..fiber..resin..radical..body..machine..increase..resultant force..sprinkle.It is possible to cause it by the bond's on the surface of the fiber cracking at the action of the surface of plasma and the fiber to generate reorganization, and besides, the mass of the radical of the polarity is taken on the surface of the fiber, and, as a result, the interaction of the body of the radical of the fiber and the resin has been increased. Carbon..fiber..surface..appropriate..plasma..process..the..surface..oxygen..element..carbon..element..compare..improve..provide..food..as a result..fiber..surface..resin..radical..body..bond..strengthen..correspond..composite materials..interface..performance..strengthen..purpose..achieve..best..processing..time.The processing of plasma is destroyed and after it passes, the mass of the radical on the surface of the fiber destroys the bond in the PPESK molecule of the body of the radical of the resin stirred up of a mass of the radical of the revitalization of generation and a free radical. The keyboard while the atom of inside oxygen and the atom of nitrogen tie, it gives birth to a new bond, and the surface of the fiber and the body of the radical of the resin were strengthened corresponds, and, as a result, the performance in the interface of composite materials has been improved.
Ⅳ 翻译中译英
The main purpose is to research and experiment multi-walled carbon nanotubes (MWCNTs) / polycarbonate (PC) resin composite materials, the preparation methods and properties.
In order to improve the multi-walled carbon nanotubes and compatibility of resin, improve the polycarbonate multi-walled carbon nanotubes and polycarbonate resin, using the interface properties of sulfuric acid multi-walled carbon nanotubes surface modification. Using the infrared spectrum, X-ray photoelectron spectros and thermogravimetric analysis of modified carbon nanotubes were the experimental data obtained will made by acid treatment of graph, the different time multi-walled carbon nanotubes are compared. Results show that the length of time, acid treatment effect of multi-walled carbon nanotubes, acid treatment time multi-walled carbon nanotubes were introced in more active group, also can save the original carbon.
This experiment with solution for blending multi-walled carbon nanotubes/polycarbonate resin composites, use of composite FESEM microstructure observation. Will composite spinning and pure polycarbonate resin spinning. Results show that the polycarbonate resin spinnability, low multi-walled carbon nanotubes/polycarbonate resin composites is not suitable for spinning. Will multi-walled carbon nanotubes/polycarbonate resin composite pressure e to insufficient pressure molding process of mould effect is not ideal. Because the pressure by moulding machine, unstable, cause diaphragm contains a lot of bubbles.
Ⅵ 玻璃钢夹砂管(RPMP)如何翻译
Glass fiber reinforced plastics mortar pipes 这是21238上的
Ⅶ 谁能用英文帮我翻译一下这段文章谢谢了!!
用google翻译
想更专业翻译去下载一个金山翻译软件吧
下面这个是我的:
Compound material is appear in response to the modern science technique shape surging of have biggest the material of vitality, it from 2 kinds or more than two materials with variant property, combine through various instrial art resort.Reunite the severalty constitutive enzyme unit of material to rise synergy on the properties, receiving single material can not analogy of superior of association properties, therefore, reunite material to have become contemporary kind of constructional material of new model.Modern metalloporphyrin radical composite material the initial issue stretch from the 60's in 20th century.At the beginning of in 60's distinguish the space evolve two greatest camps with arch u.s. - soviet of the rivalry aroused aerospace navigation technical shape, facilitate orientation set composite material, difficult permit the gauze enhancement heat alloy of the research and tapping of material.Because the triturate of boron fiber wins, and Be applied to the epoxy resin radical composite material, therefore appeared boron fiber enhancement the aluminium base reunite material, and received a successful appliance.
Metalloporphyrin laminated wood can process through a lot of mode of proctions but become, such as blast composite logarithm of timw fitting method logt, solid-the liquid combine together logarithm of timw fitting method logt and solid phase association logarithm of timw fitting method logt etc..Among them cold rolled composite merit polypeptide, is metalloporphyrin that has much of a shape potential lay-like in shape composite material to make processing technology.The cold rolled compound board stranding system wants to steer definite heat treatment behind to reenforce interface of association strength, but also bring a definite subject at the same time if forming a prejudice in the interface the etc. is at the compound of the interface association, therefore need the study that goes deep into in the middle of the course vs the heat treatment formulating law undertake of interface compound, for the purpose of further excellent chemical engineering skill make foul surface to combine good and be easy to the compound material of transform.
Copper|aluminium composite the board is a lay-like in shape classical metalloporphyrin composite material, have a good many good characteristic, like Gao Bi's strength, and amount of Gao Bi Mo...etc., have extensive appliance fore ground.The text selects aluminium|copper the lay-like in shape composite material is a research object, make use of gold phase(OM) and X-ray first the Yan shot instrument(XRD), scanning electric mirror(SEM) etc. experiment resort to study after heat treatment cold rolled Al|Cu composite interface intermediate compound formulating law, heat treatment instrial art secondly adopt to quickly and circularly heat, study Al|Cu composite knothole interface association the related mechanics characteristic of condition and material.
Test a research result manifestation, after certain gradient of temeprature and the heat treatment in time area concentration diagram, in the aluminium|copper composite there is intermediate compound creation on the interface, the creation of intermediate compound has definite conceive time area concentration diagram.Interface intermediate compound lay thickness with the raise and raise in time area concentration diagram, interface phase the category also correspond to increase.In 500 ℃ , the heat preservation will generate intermediate compound phase after 10 minutes, but when 500 ℃ heat preservations 32 hour after, the intermediate compound lay thickness has already come to a 92 μ ms.The heat treatment gradient of temeprature is also interface intermediate compound creation with cardinal impact factor for growing up, along with the gradient of temeprature raise, the interface compound lay as well raises.In the process of annealing to spread amid, the imprimis generates of the intermediate compound mutually is an Al2 Cus, then is AlCu.Lengthen along with heat treatment time area concentration diagram, successively appear an other mutually.The intermediate compound mutually has definite brittleness, the prejudice combines at the interface.
The experiment also detects that the intermediate compound is in the process of annealing amid of the growth receptorceiving spreads of control, the thickness relates to conform a kind of parabolic curve law with the variance in time area concentration diagram, thereof our initial created the kinetics form of intermediate compound growth.
Ⅷ 急!急!急!!!!求关于陶瓷基复合材料的名词的英文翻译
Continuous fiber reinforced SiC composites technology research base
SiC ceramic substrate
G/SiC composites
SiC ceramics pioneer body to synthesize technology and a pioneer pyrolysis technology macerate body
SiC preceramic resin
High cracking process
High intensity, high-temperature resistance, ablation, antioxidant....
Ⅸ 复合材料 英语翻译
reced CTE for high loadings:
为了较高的承载力降低(减小)热膨胀系数
CTE:热膨胀系数(Coefficient of Thermal Expansion);
high loading:高承载力(高载荷)
Ⅹ SMC材料与玻璃钢有何区别
玻璃钢(FRP)亦称作GFRP,即纤维强化塑料。它是以玻璃纤维及其制品(玻纤布、带、毡、内纱等)作为增强材料,容以合成树脂作基体材料的一种复合材料。由于其强度相当于钢材,又含有玻璃组分,也具有玻璃那样的色泽、形体、耐腐蚀、电绝缘、隔热等性能,像玻璃那样,形成了这个通俗易懂的名称“玻璃钢”。
SMC材料(Sheet molding compoun),中文是片状模塑料。主要原料由SMC专用纱、不饱和树脂聚酯、低收缩添加剂,填料及各种助剂组成,是树脂基复合材料的一种。SMC材料具有优越的电气性能,耐腐蚀性能,质轻及工程设计容易、灵活等优点,其机械性能可以与部分金属材料相媲美,因而广泛应用于运输车辆、建筑、电子/电气等行业中。
SMC材料是玻璃钢的一种,玻璃钢涵盖范围要比SMC材料要大的多。