pp料應(yīng)用介紹:
聚丙烯塑料的改性可分為化學(xué)改性和物理改性兩種方法。化學(xué)改性主要通過共聚�����、接枝���、交聯(lián)等方式, 改變聚丙烯的分子結(jié)構(gòu)以達(dá)到改性的目的; 物理改性則在整個改性過程中不發(fā)生化學(xué)反應(yīng), 在PP基體中加入其他無機材料、有機材料�����、其他塑料����、橡膠���、熱塑性彈性體或有特殊功能的添加助劑等, 經(jīng)過共混����、增強或填充等手段制得具有優(yōu)異性能的PP復(fù)合材料。
注塑工藝參數(shù)對pp料塑料熔體表觀黏度的影響:
聚丙烯( PP) 屬于結(jié)晶性高聚物���,有著質(zhì)輕�、無毒����、價廉、耐高溫等優(yōu)點���,在醫(yī)藥�����、食品�����、汽車和化工等領(lǐng)域中有著廣泛的用途�����。PP 是典型的熱塑性塑料之一�����,自從米蘭理工大學(xué)的G. Natta 教授發(fā)現(xiàn)等規(guī)聚丙烯以來�����,全球的聚丙烯工業(yè)迅速發(fā)展���,現(xiàn)今產(chǎn)量僅次于聚乙烯�。注塑成型能夠一次成型外形復(fù)雜��、尺寸或帶有嵌件的塑料制品�,是塑料加工的主要方法之一。塑料熔體的表觀黏度可以指導(dǎo)擬定注塑工藝�,也能夠指導(dǎo)模具型腔設(shè)計和優(yōu)化流道澆注系統(tǒng)。
穩(wěn)定供應(yīng)r370ypp注塑級
Rheological Properties of Flame Retardent and Antistatic Polypropylene Material
WANG Shuai 1,2, WANG Kejian 1*, MA Yi 2*, ZHANG Yinling 2, LIANG Wenbin 2,WANG Xu 1,SHI Jiao 1,JIANG Zhuoyu 1
(1 College of Mechanical and Electrical Engineering, Beijing University of Chemical and Technology����, Beijing 100029,China;2 National Institute of Clean and Low Carbon Energy����,Beijing 102211,China)
Abstract: The effects of brominated flame retardant and carbon black-filling on the extrusion distortion of PP melt and dynamic rheological properties were investigated by capillary rheometer and rotational rheometer. It was shown that the more filled resin exhibited higher critical shear rate for extrusion distortion corresponding to wider processing window in low filler content range. In dynamic rheometry, the higher filled resins behavior in shear thinning with higher complex viscosity���,storage modulus and loss modulus instead of lower loss factor. Quantitative analyses were conducted using entanglement model and Cross model. Filler can absorb polymer chains reducing wall adsorption dropping distortion and further resulting in higher critical shear rate. Particle filled network increases in the plateau modulus and entanglement density shortening relaxation time for quicker recovering according to smaller extrusion swell ratio. Carbon black more than 3.5wt% in composite forms percolation network being characterized by higher zero shear viscosity and longer relaxation time where liquid-solid-like transition occurs. Simultaneously, the surface resistivity decreased obviously. The viscoelastic percolation value consistent with the electrical percolation value approximately.
Keywords: Rheology; polymer; particle; composites; extrusion distortion; percolation network
MR-MR-MR-174不僅擁有卓越的光學(xué)性能且硬度極高���,從而使既輕薄又不易磨損的樹脂鏡片誕生。據(jù)悉�,當(dāng)前生產(chǎn)高折鏡片的材料有兩大類,一類是亞克力類���,而另一類則是聚氨酯類�。國內(nèi)絕大多數(shù)鏡片生產(chǎn)商生產(chǎn)的高折鏡片采用的都是韓國聚氨酯類材料�����,材料性能相比萬新此次采用的三井研發(fā)的高折材料要稍遜一籌���。三井在聚氨酯技術(shù)的研發(fā)上已達(dá)水平�����,僅運用聚氨酯技術(shù)合成的MR-(文章來源環(huán)球聚氨酯網(wǎng))MR-MR-174三種材料所獲得的專利就達(dá)3項�����,由此可見����,運用該材料生產(chǎn)的樹脂鏡片科技含量之高。
