Mold to compress and cool into shape 4 CFRTP is preheated and inserted into tool 3 Material heating, melting, and conveying 2 Solid resin infeed 1 5 ON-ROAD TRANSPORTATION Underbody shields, underhood enclosures, interior components, storage OFF-ROAD VEHICLES Skid plates, doors, seat structures, exterior panels & moldings Traditionally, molding with short and long glass-filled polypropylene to gain flexural performance over unfilled polypropylene also results in a loss of impact resistance.

THERMA-TECH TT3300-5001EC GREY THERMA-TECH TT6600-5001EC GREY THERMA-TECH TT6600-5008EC ANTHRACITE THERMA-TECH TT9200-5003EC GREY THERMA-TECH TT9200-5003EC MID ANTHRACITE Applications Sensor, Camera & ECU Housings Sensor, Camera & ECU Housings Sensor, Camera & ECU Housings Sensor, Camera & ECU Housings Sensor, Camera & ECU Housings Defining Features Thermally & Electrically Conductive Thermally & Electrically Conductive Thermally & Electrically Conductive Thermally & Electrically Conductive Thermally & Electrically Conductive Filler/ Reinforcement Glass Fiber Glass Fiber Glass Fiber Glass Fiber Glass Fiber Surface Resistivity

主要特性 Gravi-Tech配方的主要特性和优势包括：• 定制化密度， 介于 1.5-11 gm/cm3 之间， 具有多种不同 的比重 • 模量范围广， 有从高柔性到高刚性的多种模量可供选择 • 防腐蚀性， 具备抗氧化特性， 可长期使用并受益 • 耐化学性， 可耐受燃料、油和其它刺激性化学品 产品公告 目标市场和应用 Gravi-Tech 复合材料适用于多种市场中的众多应用， 包括：联系信息 欲了解关于 Gravi-Tech 密度改性解决方案的更多信息， 请致电埃万特：+86-21-60284888 消费品 保健 基础树脂 比重 尼龙 6 2.3, 2.7, 3.5, 4, 4.5, 5, 6 TP E 2.6, 3.9 TP U 2.6, 3, 4.5, 7.5, 9 4SPP 尼龙 12 4, 6.9, 11 技术特性 豪华包装、高尔夫球杆、 钓具、 赌场 / 游戏筹码、 举重器、 狩猎用品、 餐具、 器具和狩猎弹药 工业 弹药、 反应器屏蔽、 减震和隔音、 军事 / 战术装备、 机场 射线屏蔽、 多种食品级器皿、 建筑设备、 惯性配重、 水下 电缆配重 射线屏蔽、 核医药运输容器、 实验室家具和设备 www.avient.com 版权所有©2020埃万特公司。

LD R (% ) 14 15 16 17 8 9 10 11 0 20 40 60 80 100 120 0 50 100 150 200 250 300 350 400 450 500 0.00 0.02 0.04 0.06 0.08 0.10 0.12 0.14 Impact of 5 Melt Heat Histories on Preform Color Reference ColorMatrix AAzure Reduction in AA Level 35% 55% 70% ColorMatrix AAzure allows for further optimization of the polymer weight distribution during the bottle blowing process, which improves mechanical strength and bottle quality.

GUIDELINES FOR USING CESA CLEAN ADDITIVES • Cesa Clean works best when molded maintaining normal (injection) pressure/shear • For best results, Avient recommends a “Running Color Change” which eliminates breaks in the molding cycle • Since the Cesa Clean concentrate will expand, it is recommended to reduce the shot size by 20% • It is designed for use at a let-down ratio (LDR) of 3.0% or (33:1); however, use rate can vary depending on the severity of the contamination but typically is 2.0–4.0% (a use rate higher than 6.0% may not have any positive affect on the cleaning performance) • Using Cesa Clean as a routine part of your color change rotation will allow faster changes and consume a minimal amount of raw material - Note: If the manifold is not cleaned routinely, this process may be more time consuming and additional material will be required • It is best to process at your normal polymer processing temperatures - For best performance, stock temperature should be at least 400°F - If 400°F is achieved during the purging process, no additional activation will occur during the reprocessing of regrind - All parts produced during the “Running Purge Cycle” should be captured as regrind, resulting in a scrap-free color change - If using sequential gates, open and close all gates at the same time while purging the tool - If contamination appears to be coming from one gate, open and close first, and for an extended period of time, to force more material through this location - When cleaning in this manner, pay close attention to shot size - Parts containing the previous or new color plus any Cesa Clean can be used as regrind INTRODUCING CESA CLEAN TO YOUR PROCESS Hand Blend • Hand weigh enough of the Cesa Clean and natural resin mix to equate to 3–5 times the barrel capacity • Use rate should be 3.0% or 33:1 for routine cleaning • For difficult-to-clean tooling, or tooling which is not routinely cleaned, start at 4.0% or 25:1 • Note: Do not attempt to vacuum load more than 15 feet from source as stratification/separation may occur Volumetric Feeder • Calibrate feeder to dispense 3.0% or 33:1 for routine cleaning • For difficult-to-clean tooling, or tooling which is not routinely cleaned, start at 4.0% or 25:1 • This style of feeder is highly recommended for at-the-throat metering of Cesa Clean Blending Units Most blenders have an extra bin for an additive • Fill the additive bin with Cesa Clean • Set blender to introduce the Cesa Clean at 2.0 to 4.0% • Note: Do not air convey any further than 15 feet as Cesa Clean has a high density and may separate from the mix.

Select your preferred color, generate your own liquid color sample or mold your own plaque. 5.

Please confirm all addresses are correct mailto:notifications@avient-communications.com mailto:coupaenablement@avient.com 5.

On the Create Advance Ship Notice page, fill in the mandatory fields (marked with a red asterisk). 5 Click on the Submit button to send the ASN to Avient, or on the Update button if you are sending an updated ASN.

Level of Assurance and Qualifications:  Limited  This verification used a materiality threshold of ±5% for aggregate errors in sampled data for each of the above indicators GHG Verification Methodology: Evidence-gathering procedures included, but were not limited to:  Interviews with relevant personnel of Avient and their consultant;  Review of documentary evidence produced by Avient;  Review of Avient data and information systems and methodology for collection, aggregation, analysis and review of information used to determine GHG emissions; and  Audit of sample of data used by Avient to determine GHG emissions.

Level of Assurance and Qualifications:  Limited  This verification used a materiality threshold of ±5% for aggregate errors in sampled data for each of the above indicators GHG Verification Methodology: Evidence-gathering procedures included, but were not limited to:  Interviews with relevant personnel of Avient and their consultant;  Review of documentary evidence produced by Avient;  Review of Avient data and information systems and methodology for collection, aggregation, analysis and review of information used to determine GHG emissions; and  Audit of sample of data used by Avient to determine GHG emissions.