- 更多网络例句与发泡相关的网络例句 [注:此内容来源于网络,仅供参考]
-
The company main products: conductive adhesive, silica gel plates, silica gel films, silicone extrusions pads, silicone, rubber, foam board, foam tubes, foam, conductive products.
公司主要产品:导电胶,硅胶板,硅胶片,硅胶垫,硅胶管,橡胶制品,发泡板,发泡管,发泡条,导电产品等。
-
Application of isopentane /cyclopentane foamed rigid polyurethane in refrigerators is introduced.
介绍碳氢发泡新一代替代技术:环戊烷-异戊烷发泡聚氨酯硬泡技术在冰箱生产中的应用情况,并从发泡工艺及性能上与环戊烷发泡体系进行了比较。
-
Basing on thermo-simulation in laboratory, experimental study was accomplished to analyze the function mechanism of foaming agent and the foaming influence of its decompound production. The results indicated: function of foaming agents was due to their decompound and inter-reaction at high temperature. And some decompound production of foaming agent can reinforce the foaming ability of refining slag.
采用实验室模拟的方法,针对钢包精炼炉常用发泡剂的作用机理以及发泡剂高温分解产物对熔渣泡沫化性能的影响进行了研究,结果表明:发泡剂的作用主要来源于其组成物质的高温分解以及相互反应;发泡剂分解后部分产物作为高熔点粒子存在于熔渣中,提高了精炼渣的泡沫化性能。
-
The developing principle of MB gypsum fine foamer which takes compound honey-locust abietic acid anionic surfactant as principal composition,is analyzed in theory.
从理论上分析了以复合型皂角松香酸类阴离子表面活性剂为主要成分的MB石膏微发泡剂的研制原理,详细研究了MB微发泡剂在石膏料浆中的起泡条件、起泡性能及其对硬化后的建筑石膏物理力学性能的影响,MB微发泡剂与现有发泡剂的性能比较,MB微发泡剂在纸面石膏板中的应
-
The influence of high temperature and high pressure on foaming agent's properties in opened and closed system, and influence of the change of foaming agent's properties on foaming capacity and foam stabilizing capacity are also studied. The multiple regression theory is used to establish the quantitative characteristic functions of foaming agent versus temperature and pressure. Based on the Gibbs Principle, the quantitative characterization is carried out on relation of foam system's free energy versus its surface tension, surface area and concentration, and the analysis of energy concluded that the disintegration of the foam is inconvertible. At the same time, the influence of change of foam's shape and structure on distribution of reservoir temperature and pressure is qualitatively described, and the coupling mechanism between temperature field, pressure field and chemical field is systematically expounded.
同时,研究了不封闭体系、封闭体系下高温、高压对发泡剂性质的影响,以及发泡剂性质的改变对其发泡性能、稳泡性能的影响;采用泡沫实验的相关结果,运用多元回归理论,建立温度、压力与发泡剂浓度的定量表征函数;基于Gibbs原理,对高温、高压下泡沫体系的自由能与其表面张力、体系中液体的表面积以及浓度关系进行定量化的表征研究,从能量的角度得出了泡沫衰变过程具有不可逆性;同时定性地描述了泡沫形态、结构的变化对油藏温度和压力分布的影响,系统地阐述了温度场、压力场、化学场间的耦合作用机理。
-
It was found that increasing pressure for blank can improve the compactedness of blanks so as to make foam aluminium materials with homogeneous pores. Foaming temperature, as one of the main influencing factors on foaming process, should be controlled higher than the melting point of Al or Alalloy to a certain extant in order to keep a reasonable viscosity. Thus, the foam aluminum with homogeneous pores and high porosity is available. As shown by experiments, such materials should be made on conditions that they shall be protected with molten salt under 300?MPa pressure at 675~680?℃.
研究了粉末冶金法制备泡沫铝材料的方法讨论了发泡过程中的保护方式、制坯压力、发泡温度等参数对泡沫铝体积质量、孔隙率、孔结构的影响,并对发泡机理进行了探讨增大制坯压力使得金属坯致密,可以得到孔结构均匀的泡沫铝材料;发泡温度是影响发泡的主要因素之一,发泡温度控制在高于铝或铝合金熔点,同时保持熔体具有一定粘度的范围内,能够得到孔结构均匀、高孔隙率的泡沫铝材料实验结果表明:采用熔盐保护方式,在300MPa的压力下,温度在675~680℃时,可得到孔径均匀、孔隙率高的泡沫铝材料。
-
The cell structure refining mechanism shows that adding Mg decreases the surface tension of the aluminum alloy melt and hence to increase the bubble stabilization. Adding nuclear forming agent increases the nuclei of heterogeneous nucleation. Adding pre-heating foaming agent postpones its decomposition, hence to increase the uniform of foaming agent dispersion. Stirring within the middle stage of foaming agent rapid decomposition breaks up big bobbles to fine bobbles, hence to reduce mean cell diameter.
孔径细化机理分析表明,Mg的作用在于降低铝熔体的表面张力,提高气泡稳定性;形核剂的作用在于增加气泡非均匀形核的核心;发泡剂氧化预处理可以推迟和延缓发泡剂的分解,提高发泡剂的分散均匀性;搅拌发泡的作用是在发泡剂剧烈分解的中段,通过搅拌搅碎气泡,减小平均孔径。
-
Bubbling temperature direct affect the diameter and the distribution of bubbles; Bubblier is a main factor which influence the bubble structure of foam glass. To select different bubblier results in different craft. To add stabilizer directs affect the melt viscosity, besides superficial expansion.
在泡沫玻璃烧结过程中,发泡温度(760~950℃)影响泡径及气泡的分布状态;发泡剂是影响泡沫玻璃制品泡孔结构的主要因素,发泡剂不同,发泡时间不同,则气泡的泡径和开闭口的情况就不同;在泡沫玻璃烧结过程中,稳泡剂的加入直接影响粘度,粘度过高气泡不易产生,粘度过低气泡极易逸出,两者都不利于产生所要求数量的气泡;另外,表面张力和配料中的水对发泡也有一定的影响。
-
In the paper the main topics are:(1) to analyze the chemistry composition, the X-ray diffraction, the DTA, and the functions of all raw materials;(2) to define the best direction for producing glass and foam glass, and the best burning technical process;(3) to characterize the unit weight and thermal conductivity of foam glass;(4) to analyze the reason of bubbling up, including the influence factor of temperature, time and so on;(5) to discuss the reasons of leading to shortcomings.There is high content quartz (SiO2) in the two gangues from gold mine and potassium feldspar mine respectively. They can be used to prepare glass, because the quartz (SiO2) is the main raw material.
论文的主要内容包括:1、对矿山尾矿的湿化学分析,粒度、X射线衍射和热稳定性的分析,以及硼砂、碳酸钙及制备泡沫玻璃的玻璃粉、磷酸钠实验原料在实验中的作用进行分析;2、确定尾矿烧结成玻璃体和利用玻璃体烧结泡沫玻璃的最佳配方以及两次烧结的最佳烧成工艺条件;3、泡沫玻璃制品的体积密度和导热系数等物理性能的测定;4、泡沫玻璃的发泡机理分析,包括发泡温度、发泡时间、发泡剂的用量、稳定剂的用量及其它因素对发泡作用的影响;5、讨论造成泡沫玻璃成品各种缺陷的原因及其解决方法。
-
In this study, Cryptomeria japonica was liquefied in phenol with H2SO4 and HCl as a catalyst. The epoxy resin was synthesized from epichlorohydrin and bisphenol A with the molar ratio of 5/1. Blending resins were prepared by mixing the liquefied Japanese cedar and epoxy resin with weight ratios of 30/100, 50/100 and 70/100, and the triethylene tetramine was added as a cross-linking hardener. The effect of mixing ratios of liquefied Japanese cedar to epoxy resin and amount of hardener added on the reactivity of blending resins and the properties of cured resins were investigated. Furthermore, polysiloxane and rice husk were added as foaming agent and filler, respectively, to the epoxy resin and blending resins. The foaming process, the bubbles shape, the mechanical properties, and the thermal stability of the epoxy foams were investigated.
中文摘要本研究将柳杉(Cryptomeria japonica; Japanese cedar)木材以酚为溶剂,H2SO4及HCl为催化剂进行液化处理,另以莫耳比5/1之环氧氯丙烷与双酚A反应合成环氧树脂,并将液化柳杉与环氧树脂以重量比30/100、50/100及70/100混合制备掺合树脂,并以三乙基四胺(Triethylene tetramine; TETA)为架桥硬化剂,探讨液化柳杉与环氧树脂混合比及硬化剂添加量对其掺合树脂之反应性,及其硬化树脂性质之影响;进一步於环氧树脂与掺合树脂中添加聚矽氧烷为发泡剂,稻壳粉为填料制备发泡体,探讨其发泡体之发泡过程、泡体形态、发泡体机械性质与热稳定性。
- 更多网络解释与发泡相关的网络解释 [注:此内容来源于网络,仅供参考]
-
foaming agent:发泡剂
目前在国内使用于地暖工程的轻量气泡混凝土是通过把发泡剂(Foaming Agent)和高压空气,水等注入到发泡机里形成气泡,然后再把气泡与水泥泥浆混合的方法而形成的,还可添加沙子、笨板粒子,发泡合成树脂块...与角质层的脂质作用,
-
Lauryl Betaine:烷基甜菜硷 界面活性剂,强力发泡剂
Lanolin Alcohol 含水羊毛脂 乳化剂. | Lauryl Betaine 烷基甜菜硷 界面活性剂,强力发泡剂. | Lauryl Diethanolamide 烷醇眉胺 界面活性剂,发泡及增稠剂.
-
blowing agent:发泡剂
吸热剂(Endothermic)(发泡剂)(blowing agent) (发泡剂) 吸热剂 发泡剂的化学作用导致它生成气体的同时会吸收热量, 通常使用的吸热发泡剂是碳酸氢钠和 柠檬酸的混合物.
-
CBA:化学发泡剂
、化学发泡剂(CBA)行业下游介绍二、化学发泡剂(CBA)行业下游发展状况分析三、化学发泡剂(CBA)行业下游对化学发泡剂(CBA)行业影响力分析第十二章 化学发泡剂(CBA)重点企业发展分析第十三章 化学发泡剂(CBA)行业投资策略分析第
-
Foam:发泡
所有睡垫最根本的是由"发泡"(foam)所构成的,发泡材料分为化学发泡和物理发泡,后者比前者的性能要好很多,当然价格也相对贵些. 其最基本的种类有两种:1、 封闭室(closed-cell)封闭室发泡就是一片含有细小泡泡所构成的塑胶睡垫,
-
Foam glue:泡沫胶粘剂,泡沫粘合剂,发泡胶粘剂,发泡粘合剂
foam glass brick 泡沫玻璃砖 | foam glue 泡沫胶粘剂,泡沫粘合剂,发泡胶粘剂,发泡粘合剂 | foam gluing 泡沫胶合
-
Foaming machine:发泡机
foaming capacity 发泡能力 | foaming machine 发泡机 | foaming power 发泡能力
-
frothing agent:发泡剂,起沫,起泡剂
frothing | 发泡,起沫 | frothing agent | 发泡剂,起沫,起泡剂 | frothing machine | 发泡机,起沫机
-
polyurethane foam:发泡材
固握力测试是将元件锁入聚氨酯发泡材(polyurethane foam),再由尖端施加轴向力,以量测拉出强度(pushout strength). 测试时首先使用两种不同密度的发泡材及两种不同尺寸的锁入孔,并测试锁入及松脱扭矩,然后以60%锁合扭矩将螺钉固定在发泡材上,
-
Whipped Butter:搅打奶油;发泡奶油
whip v搅打发泡;打擦 | whipped butter搅打奶油;发泡奶油 | whipped cream发泡稀奶油;掼奶油