Recent Progress of Post-reactor and Reactor-made Polypropylene-based Thermoplastic Elastomers
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JG Drobny. Handbook of Thermoplastic Elastomers (Second Edition). Plastics Design Library. 2014; 1–11.
M Biron. Thermoplastics: Economic Overview. Material Se- lection for Thermoplastic Parts. 2016; 77–111.
HA Maddah. Polypropylene as a Promising Plastic: A Review. American Journal of Polymer Science. 2016; 6 (1): 1–11.
AB Laroverket. Processing of Elastomeric Materials. 2007; 1–138.
JA Brydson. Thermoplastic elastomers-properties and appli- cations. Rapra Rev. Rep. 1995; 7: 4–18.
K Constantina, V Costas and S Patrickios. Polymer networks one hundred years after the macromolecular hypothesis: A tu- torial review. https://doi.org/10.1016/j.polymer.2020.123322
J Han, W Chen, S Zhang S, and et al. The Research and De- velopment of Thermoplastic Elastomers. 2020; 2 (2): 34–46.
J Kim, H Kim, J Lim, and et al. Thermal Properties and Ad- hesion Strength of Amorphous Poly(aolefins)/Styrene–Eth- ylene–Butylene Copolymer/Terpene Hot-Melt Adhesive. Journal of Applied Polymer Science. 2012; 124: 3312–3319.
M Ratajczak and A Wilmanski. Evaluation of Laboratory Methods of Determination of SBS Content in Polymer-Mod- ified Bitumens. Materials. 2020; 13 (5237): 1–17.
A Puszka and A Kultys. New thermoplastic polyurethane elastomers based on aliphatic diisocyanate- Synthesis and characterization. J Therm Anal Calorim. 2016.
Y Zhang, J He and F Liu. Synthesis of novel polycarbonate- based thermoplastic polyurethane elastomers compatibilizers with octadecyl side chains and their application in PC/PP blends. Polym Adv Technol. 2021; 1–12.
S Amin and M Amin. Thermoplastic Elastomeric (TPE) Ma- terials and their use in outdoor insulation. Rev. Adv. Mater. Sci. 2011; 15–30.
A Robert and I Kong. General Purpose Elastomers: Structure, Chemistry, Physics and Performance. https://DOI:10.1007/978-3-642-20925-3_2
M Kenneth and B Betty. Food Packaging—Roles, Materials, and Environmental Issues. Journal of Food Science. 2007; 72,(3): 39-55.
https://www.adrecoplastics.co.uk/polypropylene-uses-appli- cationsdownloadedondate02022021
W Li, Y Hong, Xuefeng, and et al. Properties of Polypropyl- ene/Antibacterial Glass Composites. Journal of Macromolec- ular Science Part B: Physics. 2012; 51: 654–661.
MF Maitz. Applications of synthetic polymers in clinical medicine. Biosurface and Biotribology. 2015; 1 (3): 161–176.
MP Luda. Characterisation of Used PP-Based Car Bumpers and Their Recycling Properties. ISRN Materials Science. 2013; 531093: 1–12, 2013
K Govindraj. A Junankar, V Rao, and et al. Polypropylene Copolymer Material for Automotive Thin Wall Front Bumper with Integrated Grill Application. WCX World Congress Ex- perience. 2018; 01: 153.
AM Mohd, A Abdullah, S Dahaman, and et al. Review the mechanical properties of reinforcing agents in polypropylene matrix of car bumper. APRN Journal of Engineering and Ap- plied Sciences. 2017; 12 (04), 4209–4213.
K Sonja, A Marko, L Mitar, and et al. Future of technology of polymerization production (Propylene). Conference Савремени материјали. 2019; 231–241.
PM Trivedi, VK Gupta. Progress in MgCl2 supported Zieg- ler‑Natta catalyzed polyolefin products and applications. Journal of Polymer Research. 2021; 28 (45): 1–20.
VK Gupta, G Singh, U Makwana, and et al. Influence of In- ternal Donors on the Performance and Structure of MgCl2 Supported Titanium Catalysts for Propylene Polymerization Macromol. Chem.
Phys. 2009; 210: 69–76.
PM Trivedi, J Kumawat, VK Gupta, and et al. Role of a Multidentate Carbonate Donor in MgCl2‑Supported Zieg- ler−Natta Olefin Polymerization Catalysis: An Experimental and Computational Approach. J. Phys. Chem. C. 2019; 123: 24501−24510.
VK Gupta, HR Patil, U Makwana, and et al. Nature of Phthalates as Internal Donors in High Performance MgCl2 Supported Titanium Catalysts. Catal Lett. 2009; 131: 624– 631.
VK. Gupta, U Makwana, R Patankar, and et al. Propylene Polymerization Using Supported Ziegler–Natta Catalyst Sys- tems with Mixed Donors. Journal of Applied Polymer Science. 2012; 125: 896–
VK Gupta, HR Patil, P Vyas, and et al. Alkoxy Silanes as Ex- ternal Donors for Polypropylene Procatalyst: Study on Polymerization Performance and Effect on Resin Properties. PolymerPlastics Technology and Engineering. 2012; 51: 466–472.
J Kumawat, R Grubbs, VK. Gupta, and et al. Insights into the Nature of Self-Extinguishing External Donors for Ziegler- Natta Catalysis: A Combined Experimental and DFT Study. Chemcatchem. 2020.
BM Mandal. Fundamentals of Polymerization. World Scientific: Hackensack, NJ, USA. 2013.
A Shamiri, MH Chakrabarti, W Kaminsky, and et al. The Influence of Ziegler-Natta and Metallocene Catalysts on Polyolefin Structure, Properties, and Processing Ability. Mate- rials. 2014; 7: 5069–5108.
T Das and S Roy. Heat sensing Thermoplastic Elastomer Based on Polyolefins for Encapsulation Applications Intech Open book. 2015; 5: 95-113. http://dx.doi.org/10.5772/61691
M Asaro. Polypropylene Impact Copolymer. IHS Chemical | PEP Consolidated Report. 2016: CR006.
P Gali and G Vecelio. Technology: driving force behind in- novation and growth of polyolefins. Prog Poly. Sci. 2001; 26: 1287-1336.
G Holden. Understanding thermoplastic elastomers. Hanser & Hanser/Gardener, Munich. 2000.
S Amin and M Amin. Thermoplastic elastomeric materials and their use in outdoor electrical. Rev Adv Mater Sci. 2011; 21: 15-30.
M Gessler, WH Haslett. US Patent, 3037954, 1962.
WK Fisher. US Patent, 3862106, 1972.
VK Abitha and AV Rane, A review on EPDM / polyolefinic blends and composites. Research & Review in Polymer re- view. 2014; 5(3):102-114.
P Galli and G Vecelio. Technology: driving force behind innovation and growth of polyolefins. Prog Poly. Sci. 2001; 26: 1287-1336.
J Dong, B Zhu, Z Han, and et al. Process for preparation of polyolefin alloy. US patent, 0312390A1, 2008.
J Dong, J Liu, Z Han, and et al. Polyolefin composite material and method for producing the same. US patent, 0062466A1, 2009.
P Galli. My Life with polyolefins from mountains to molecule. Journal of Macromolecular Science Part A – Pure Applied Chemistry. 1999; A36 (11): 1797-1859.
P Galli. The reactor granule technology: The Ultimate expansion of polypropylene properties? Journal of Macromolecular Science Part A. 1999; 36(11):1561-1586.
P Galli. The reactor granule technology: a revolutionary approach to polymer blends and alloys. Makromol. Chem., Macromol. Symp. 1994; 78: 269-284.
T Mcnally, P Mcshane, GM. Nally, and et al. Rheology, Phase Morphology, mechanical, impact and thermal properties of polypropylene/ metallocene catalysed ethylene 1-octene copolymer
blends. Polymer. 2002; 43:3785-3793
Zeitschrift für Metallkunde.International Journal of Materials Research,46. Materials Research. 2002; 3 (2): 37-44.
W Rungswang, P Saendee, B Thitisuk, and et al. Role of Crystalline Ethylene-Propylene Copolymer on Mechanical Properties of Impact Polypropylene Copolymer. J. Appl. Polym. Sci. 2013; 3131-3140.
X Wang, S Hu, Y Guo, and et al. Toughened High-Flow Polypropylene with Polyolefin-Based Elastomers. Polymers. 2019; 11 (1976): 1-14.
S Gao, M Li, Y Wang, and et al. PP/POE thermoplastic elastomer prepared by dynamic vulcanization and its flame retardant modification. Journal of Elastomers & Plastics. 2021; 1–16.
A Graziano, S Jaffer and M Sain. Review on modification strategies of polyethylene/polypropylene immiscible thermo- plastic polymer blends for enhancing their mechanical behaviour. Journal of Elastomers & Plastics. 2018; 1–46.
M Mauri, M Ponting, V Causin, and et al. Morphological re- organization and mechanical enhancement in multilayered polyethylene/polypropylene films by layer multiplication or mild
annealing. J Polym Sci B Polym Phys. 2018; 56: 520–531.
F Li, W Jiang, Y Zhang, et al. Design of high impact thermal plastic polymer composites with balanced toughness and rigidity: Toughening with core-shell rubber modifier. Polymer, 2020; 191:
S Kang. Method of Determining Molecular Weight and Comonomer characteristics of a copolymer in polymer blends. US Patent, 0328873, 2017.
E M Sadek, DE El-Nashar and AM Motawie. Modification of Ethylene Propylene Diene Terpolymer Rubber by Some Thermoplastic Polymers. Polymer Plastics Technology and Engineering. 2003; 42(4): 627–642.
K Naskar and K Chatterji. Development of thermoplastic elastomers based on maleated ethylene propylene rubber (m- EPM) and polypropylene (PP) by dynamic vulcanization. eX- PRESS Polymer
Letters. 2008; 1(8): 527–534.
M Fasihi and H Mansouri. Nonisothermal crystallization behavior of isotactic polypropylene/ thermoplastic rubber blends. Journal of Macromolecular Science: Pure & Applied Chemistry. 2017; 54 (12): 951-955.
AH. Tsou, AI Norman, JA. Throkmorton, and et al. Sequence distribution and elastic properties of propylene-based elasto- mers. Polymer. 2017; 111: 115-122.
OR Ballesteros, CD Rosa, F Auriemma, and et al. Thermo- plastic elastomers from binary blends of syndiotactic polypropylenes with different stereoregularity. Polymer. 2016; 85: 114-124.
S Liparoti, A Sorrentino, V Speranza. Micromechanical Characterization of Complex Polypropylene Morphologies by HarmoniX AFM. Hindawi International Journal of Polymer Science. 2017; 9037127: 1-12.
AS Bhattacharya, T. Chaterjee and K. Naskar. Automotive applications of thermoplastic vulcanizates. J Appl Polym Sci. 2020; (137) 1-20.
LV Fei, J Fang, J Huang, and et al. Preparation of polypropylene/ethylene-propylene-diene terpolymer/nitrile rubber ternary thermoplastics vulcanizates with good mechanical properties and
oil resistance by core-shell dynamic vulcanization. Polymers for Advanced Technologies. 2020; 31(10): 1-11.
PS Chum and KW Swogger. Olefin polymer technologies- History and recent progress at The Dow Chemical Company. Progress in Polymer Science. 2008; 33: 797–819.
ExxonMobil Chemical's new speciality elastomers provide polymer modification. Additives for Polymers. 2009; 9: 2-3.
TT Tee, T. S Lee and ST Bee. Viscoelastic Behaviors of Polypropylene/Santoprene Blends. Conference APCChE- Seoul Korea. 2013.
https://www.toyoboglobal.com/seihin/xj/epla/sarlink/sarlink.htm_downloaded_01May2020
H Ismail and Halimatuddahliana. Thermoplastic Elastomer Based on PP/EPDM/ENR25 and PP/EPDM/NR Blends. Polymer Plastics Technology and Engineering. 2004; 43(2): 357–368
M Shi, D Zhang, J Zhu, and et al. Morphology, crystallization and thermal and mechanical properties of dynamic vulcanization EPDM/PP thermoplastic elastomer. Journal of Thermoplastic Composite Material. 2019; 32(7): 922–935.
AH Tsou, JR Hagadorn, J. Yang, and et al. Preparation of Bi- modal rubber, thermoplastic vulcanizites, and articles made thereof. US Patent, 0024436, 2020.
A Durmus and MB Alanalp. Quantifying microstructural, thermal, mechanical and solid-state viscoelastic properties of polyolefin blend type thermoplastic elastomer compounds Polymer. 2018; 142: 267-276.
DD Rousseaux, J Marchand-Brynaert, X Drooghaag X, and et al. Polypropylene ionic thermoplastic elastomers: Synthesis and properties et al. Polymer Degradation and Stability. 2010; 95: 363-368.
G Elicabe, JM. Carella and J Borrajo. J Polym Sci Part B: Polym Phys. 1996; 34: 527.
H Panigrahi, PR Sreenath, K Dinesh Kumar, and et al. Unique compatibilized thermoplastic elastomer from polypropylene and epichlorohydrin rubber. Polymer. 2019; 183: 121866.
BG Soares, DM Santos and AS Sirqueira. A novel thermo- plastic elastomer based on dynamically vulcanized polypro- pylene/acrylic rubber blends. – eXPRESS Polymer Letters. 2008; 2(8): 602–613.
P Galli and G Vecelio. Technology: driving force behind in- novation and growth of polyolefins. Prog Poly. Sci. 2001; 26: 1287-1336.
P Galli. My Life with polyolefins from mountains to molecule. Journal of Macromolecular Science Part A – Pure Applied Chemistry. 1999; A36 (11): 1797-1859.
P Galli, The reactor granule technology: The Ultimate ex- pansion of polypropylene properties? Journal of Macromo- lecular Science Part A. 1999; 36(11):1561-1586.
https://www.ptonline.com/articles/pp-engineering-alloys- branch-out-into-molding-extrusionthermoforming download date 05/02/2021
M Covezzi and G Mei. The multizone circulating reactor technology. Chemical Engineering Science. 2001; 56: 4059– 4067.
CC Han, J Wang, J Dong, and et al. Morphology and mechanical properties of polypropylene/poly (propylene-1-oc- tene) in-reactor alloys prepared by Metallocene/Ziegler Natta hybrid catalyst. Polymer. 2012; 53:1507-1516.
VK Gupta and NP Cheremisinoff. Metallocene based poly-olefins- Product Characteristics. Handbook of Engineering Polymeric Materials. Marcel Dekker, New York. 1997; 155- 165.
W Kaminsky, A Shamiri and PV Aravind. The Influence of Ziegler-Natta and Metallocene Catalysts on Polyolefin Struc- ture, Properties, and Processing Ability. Materials. 2014; 7: 5069-5108.
B Englehorn and C Lin. Polypropylene based impact copoly- mers and process and apparatus for production. World Patent, 089111A1, 2019
J Dong and Y Qin. Recent key developments in isotactic pol- ypropylene in-reactor alloy and inreactor nanocomposite technology. Sci China Chem. 2016; 59(10): 1231-1239.
J Dong, B Zhu, Z Han, and et al. Process for preparation of polyolefin alloy. US Patent, 0312390A1,
VK Gupta, S Velusamy, S Shah, A Sharma, R Grubbs, and et al. A Supported hybrid metallocene
catalyst for olefin polymerization and a process for preparation thereof. Indian Patent, Application
number 4278/MUM/2015.
VK Gupta, R Grubbs, S Velusamy, S Shah, A Sharma, and A Kothari. Supported hybrid metallocene catalyst systemand process for homo-polymerization and co-polymerization of olefins. Indian Patent, Application number 4199/MUM/2015.
WH. Lee, JS. Chung, HS Cho, and et al. Preparation of the Ziegler–Natta metallocene hybrid catalysts on SiO2 MgCl2 bi- support and ethylene polymerization. Journal of Molecular Catalysis A: Chemical. 1999; 144: 61–69
GR Nejabat, M Nekoomanesh, H Arabi, and et al. Study of Ziegler-Natta/(2-PhInd)2ZrCl2 hybrid
catalysts performance in slurry propylene polymerization. IPPI Polyolefins Journal, 2015; 2(2):
-87.
J Dong, J Liu, Z Han, and et al. Polyolefin composite material and method for producing the same. US patent, 0062466A1, 2009.
S Shah, HR. Patil, VK Gupta, and et al. Investigating effect of mixed alcohols and in-situ initiator on magnesium alkoxide for Ziegler–Natta catalyst and polypropylene improvement. Journal of Polymer Research. 2021; 28 (264): 1-16.
J Wang. Polymer. 2012; 53: 1507-1516.
J Xu and L Feng. Application of temperature rising elution fractionation in polyolefins. European Polymer Journal. 2000; 36: 867- 878.
P Beatriz, VG Rafael, A Carrero, and et al. Bimodal polypropylene through binary metand allocene catalytic systems: comparison between hybrid and mixed heterogeneous catalysts. Polym Res. 2016; 23(135): 1-15.
J Wang, X Liu, J Junji, and et al. Study of Ziegler-Natta /Metallocene Hybrid Catalyst on Pilot Device. Advanced Materi- als Research Vol. 2011; 398: 8-12.
B Wang, X Wang, L Pan, and et al. Copolymerization of Propylene with Higher-Olefins by a Pyridylamidohafnium Catalyst: An Effective Approach to Polypropylene-Based Elastomer. Polymers. 2020; 12 (89): 1-15.
A Mishra, HR Patil and VK Gupta. Progress in propylene homo- and copolymers using advanced transition metal catalyst systems. New J. Chem.-Royal Society of Chemistry. 2021http://DOI:10.1039/d1nj01195b.
Sudhin, X Chen, AM Jangda, and et al. Thermoplastic Poly- olefin containing amorphous ethylene elastomer. World Pa- tent. 2016; 057124t.
T Pham. Modified polypropylene compositions. European Patent, 1607440A1, 2004.
W Posch and M Tranninger. Heterophasic polypropylene co- polymer composition. European patent, 22775485B1, 2009.
G Vitale, F Piemontesi, B Gaddi, and et al. Heterophasic polypropylene copolymers. World Patent, 219583A1, 2018
G Grestenberger, GD Potter, C Grein. Polypropylene/ethylene-propylene rubber (PP/EPR) blends for the automotive industry: Basic correlations between EPR-design and shrink- age. eXPRESS
Polymer Letters. 2014; 8(4): 282–292.
P Doshev, AC Knall and C Cock. Heterophasic polyolefin composition having improved stiffness and impact strength. European Patent, P2615136, 2012.
G Duguid, and R Demarco. Polypropylene Melt Blown seal- ant films for retort packaging. US Patent, 9156972B2, 2015.
M Hill. Multilayer films and packaging comprising the same. World Patent, 1175287A1, 2018.
EK Carl-Gustav, M Gahleitner, J Wanand g, and et al. Soft Polypropylene Composition with improved properties. World Patent, 197593, 2018.
M Aarno-Winterhof, C Kniesel, K Friedrich, and et al. Heterophasic polypropylene composition. World Patent, 081018A1, 2017
M Sandholzer, C Tranninger and J Wang. Multimodal Random Heterophasic Polypropylene Composition World Patent, 072292A1, 2019.
K Klimke and HJ Van-Cauwenberghe. Polypropylene composition with excellent stiffness and impact strength. World Patent, 053164A1, 2020.
B Zhao, N Li, JH Xu, and et al. Articles comprising polypropylene impact copolymers and method of making the same World Patent, 050582A1, 2019.
M Gahleitner, J Wang and E Potter, High flow heterophasic polypropylene copolymer with improved mechanical and optical properties. World Patent, 077854A1, 2018
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