ScienceON 검색
ScienceON '특허' 검색
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PET containers with enhanced thermal properties and process for making same / Graham Packaging LC, L.P. A blow-molded PET container comprising a wall having a density of between about 1.370 g/cc and 1.385 g/cc, a heat-induced crystallinity of from about 18% to about 25%, and a strain-induced crystallinity of from about 55% to about 75%, wherein the PET container, when filled with a liquid having a temperature of from about 100° C. to about 132° C. or when subjected to a pasteurization or retort process, will not experience a change in volume of greater than 3%. |
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PET CONTAINERS WITH ENHANCED THERMAL PROPERTIES AND PROCESS FOR MAKING SAME / GRAHAM PACKAGING LC, L.P. A blow-molded PET container comprising a wall having a density of between about 1.370 g/cc and 1.385 g/cc, a heat-induced crystallinity of from about 18% to about 25%, and a strain-induced crystalinity of from about 55% to about 75%, wherein the PET container, when filled with a liquid having a temperature of from about 100° C. to about 132° C. or when subjected to a pasteurization or retort process, will not experience a change in volume of greater than 3%. |
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PET CONTAINERS WITH ENHANCED THERMAL PROPERTIES AND PROCESS FOR MAKING SAME / Silvers, Kerry W. A process is provided for making a blow-molded PET container comprising a wall having a density of between about 1.370 g/cc and 1.385 g/cc, a heat-induced crystallinity of from about 18% to about 25%, and a strain-induced crystallinity of from about 55% to about 75%, wherein the PET container, when filled with a liquid having a temperature of from about 100° C. to about 132° C. or when subjected to a pasteurization or retort process, will not experience a change in volume of greater than 3%. |
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PET containers with enhanced thermal properties and process for making same / Graham Packaging PET Technologies Inc. A process is provided for making a blow-molded PET container comprising a wall having a density of between about 1.370 g/cc and 1.385 g/cc, a heat-induced crystallinity of from about 18% to about 25%, and a strain-induced crystallinity of from about 55% to about 75%, wherein the PET container, when filled with a liquid having a temperature of from about 100° C. to about 132° C. or when subjected to a pasteurization or retort process, will not experience a change in volume of greater than 3%. |
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MANUFACTURE OF SEMICONDUCTOR CRYSTAL / KAWASAKI STEEL CORP (PURPOSE) To reduce the generation of through-defects in a film by interrupting the supply of at least one component in the formed film components of a semiconductor crystal film once or more and keeping a substrate temperature during interruption at a temperature higher than the substrate temperature during film formation. (CONSTITUTION) A substrate: a sapphire (1111) face, a aw material gas: dimethyl cadmium, diethyl tellurium, a carrier gas: hydrogen are included as the conditions of film formation. A substrate temperature: 370-400°C, a raw-material gas flow rate: dimethyl cadium, 40cc/min, diethyl tellurium, 110cc/min, a carrier- gas flow rate: 5-10l/min are included as the conditions of film formation beofre interruption. The substrate temperature: 450-600°C, the raw-material gas flow rate: dimethyl cadmium, 0-40cc/min, the carrier-gas flow rate: 1-5l/min, a time: 10-30min are contained on interruption. The substrate temperature: 370-400°C, the raw-material gas flow rate: dimethyl cadmium, 40cc/min, diethyl tellurium, 110cc/min, the carrier-gas flow rate: 5-10l/min and film thickness: 1μm are comprised as the conditions of film formation after interruption. |
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PET CONTAINERS WITH ENHANCED THERMAL PROPERTIES AND PROCESS FOR MAKING SAME / EVINS SAMUEL E A blow-molded PET container comprising a wall having a density of between about 1.370 g/cc and 1.385 g/cc, a heat-induced crystallinity of from about 18% to about 25%, and a strain-induced crystalinity of from about 55% to about 75%, wherein the PET container, when filled with a liquid having a temperature of from about 100��C to about 132��C or when subjected to a pasteurization or retort process, will not experience a change in volume of greater than 3%. |
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PET CONTAINERS WITH ENHANCED THERMAL PROPERTIES AND PROCESS FOR MAKING SAME / EVINS SAMUEL E A blow-molded PET container comprising a wall having a density of between about 1.370 g/cc and 1.385 g/cc, a heat-induced crystallinity of from about 18% to about 25%, and a strain-induced crystalinity of from about 55% to about 75%, wherein the PET container, when filled with a liquid having a temperature of from about 100��C to about 132��C or when subjected to a pasteurization or retort process, will not experience a change in volume of greater than 3%. |
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Bimodal polyethylene compositions for blow molding appplications / UNIVATION TECHNOLOGIES, LLC A bimodal polyethylene composition that includes ethylene-derived units, and, optionally, one or more other olefin-derived units, wherein the bimodal polyethylene composition possesses a density of at least 0.940 g/cc, an average molecular weight (Mw) of from 200,000 to 370,000, a z-average molecular weight (Mz) of from 1,500,000 to 3,400,000 Daltons, and a z+1 average molecular weight (Mz+1) of from 2,500,000 to 6,800,000 Daltons, is provided in various embodiments. Articles made therefrom and methods of making the same are also provided. |
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Bimodal polyethylene compositions for blow molding applications / Univation Technologies, LLC A bimodal polyethylene composition that includes ethylene-derived units, and, optionally, one or more other olefin-derived units, wherein the bimodal polyethylene composition possesses a density of at least 0.940 g/cc, an average molecular weight (Mw) of from 200,000 to 370,000, a z-average molecular weight (Mz) of from 1,500,000 to 3,400,000 Daltons, and a z+1 average molecular weight (Mz+1) of from 2,500,000 to 6,800,000 Daltons, is provided in various embodiments. Articles made therefrom and methods of making the same are also provided. |
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개선된 차단 특성을 가지는 폴리에틸렌 필름 및 이의 제조방법 / 셰브론 필립스 케미컬 컴퍼니 엘피 0.960 g/cc 이상의 밀도, 1.3 g/10 분 내지 2.8 g/10 분의 용융지수, 1x 104 Pa*s 내지 1 x 105 Pa*s의 영점 전단 점도, 220 내지 370의 회복 전단 인자, 및 0.155 내지 0.200의 CY-a 인자를 가지는 중합체 수지.b는 5.17인 식 IT≥-1.67*(MI)+b으로 정의되는 초기 인장강도를 가지고 산화, 환원, 산화 순서로 이루어진 활성화를 진행하지 않은 촉매로 제조된 유사한 용융지수를 가지는 중합체 수지와 비교할 때 수지 압출 압력이 30% 감소되는 중합체 수지가 개시되며, 필름으로 형성될 때 0.21 g.mil/100 in2/일 내지 0.33 g.mil/100 in2/일의 투습도를 가지는 중합체 수지. |
ScienceON '논문' 검색
더보기No | 제목 / 내용 |
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Prediction of Subsequent Vertebral Collapse after Osteoporotic Thoracolumbar Vertebral Fractures 대한골다공증학회 , 2011 ; Vol. 9 , Issue 2 |
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CCR5결여에 의한 염증 질환의 악화 Chungbuk National University , 2020 ; 국내박사 , vii, 90 pages |
3 |
CCR5결여에 의한 염증 질환의 악화 Chungbuk National University , 2019 ; 국내박사 , pp.329-344 |
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CCR5결여에 의한 염증 질환의 악화 Chungbuk National University , 2019 ; 국내박사 , pp.329-344 |
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CCR5결여에 의한 염증 질환의 악화 Chungbuk National University , 2001 ; 국내박사 , pp.1-17 |
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CCR5결여에 의한 염증 질환의 악화 Chungbuk National University , 2022 ; 국내박사 , pp.1-17 |
7 |
CCR5결여에 의한 염증 질환의 악화 Chungbuk National University , 2012 ; 국내박사 , pp.108-115 |
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CCR5결여에 의한 염증 질환의 악화 Chungbuk National University , 2001 ; 국내박사 , pp.115-118 |
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CCR5결여에 의한 염증 질환의 악화 Chungbuk National University , 2007 ; 국내박사 , pp.1141-1151 |
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CCR5결여에 의한 염증 질환의 악화 Chungbuk National University , 2003 ; 국내박사 , pp.359-370 |
ScienceON '보고서' 검색
더보기No | 제목 / 내용 |
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1 |
에너지 재료 신뢰성 측정기술 개발 황찬용 , 한국표준과학연구원 , 2012 |
2 |
나노다공성 금속유기화합물의 개발 및 활용 동향 전영호 , 한국표준과학연구원 , 2018 |
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과채류공통수출연구사업단 김일섭 , 서울시립대학교 , 2014 |
4 |
고출력 신광원 부품용 방열소재 개발 안지혁 , 한국재료연구원 , 2014 |
5 |
Conductive Pattern Nano Heatpipe 방식을 적용한 모듈형 디밍제어 LED가로등 시스템 개발 최갑용 , (주)케이에스비 , 2016 |
6 |
900MPa급 자동차용 주철너클부품 개발 최갑용 , (주)명화공업 , 2013 |