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Publications Barvinsky I.A. Selection of thermoplastics for injection molding using analogues. 8th international Seminar “Modern Plastics Injection Molding Technologies”. St. Petersburg. October 13-14. 2021. Barvinsky I.A. Prediction based on digital injection molding model // Plastics. 2021. ¹ 5. - Ñ. 30 - 35; ¹ 6. - Ñ. 32 - 37; ¹ 7. - Ñ. 24 - 29.
Barvinsky I.A.
Problems of filled nylons
injection molding.
6th International Seminar “Modern Plastics Injection Molding
Technologies”. St. Petersburg. October 2-3. 2019.
Barvinsky I.A.
Shrinkage in thermoplastics injection molding derivatives.
5th International Seminar “Modern Plastics Injection Molding
Technologies”. St. Petersburg. October 3-4. 2018.
Barvinsky I.A.
Design of runner
systems for injection molding of thermoplastic elastomers. Technical
conference "Injection molds: Design, manufacture, maintenance" (Rosmould
international exhibition business program). Moscow. 16 th of May 2018.
Barvinsky I.A.
Expertise
of thermoplastics injection molding simulation reports //
Pro Plastic. Polymeric Technologies. 2018. ¹ 2 (April).
P. 22-29.
Barvinsky I.A. Moldex3D R15. 2018.
Barvinsky I.A.
The problem of non-uniform, low
and high gloss in the injection molding of thermoplastics. 4th
International Seminar “Modern Plastics Injection Molding Technologies”.
St. Petersburg. October 4-5. 2017.
Barvinsky I.A. Preparation, carrying out of thermoplastics injection molding analysis and results interpretation using Moldex3D R15. III International conference «IDEAS. DESIGN. ITEMS». Moscow. June 21, 2017.
Barvinsky I.A. Computer-aided engineering for thermoplastics injection molding: Moldex3D R14 // CADmaster. 2016. ¹ 2. P. 89-93.
Barvinsky I.A.
Typical errors in
simulation of thermoplastics injection molding.
II International Conference "Ideas. Design. Products».
Moscow. June 16. 2016. Barvinsky I.A., Braginsky V.A. Shrinkage variation in injection moulding of thermoplastics // Polymer Materials. 2016. ¹ 5. P. 50-55; ¹ 6. P. 38-47. Barvinsky I.A. 3D-simulation of molds for thermoplastics injection molding // Modern technologies of production and operation of the molds. Summit at International Exhibition ROSMOULD. Moscow. June 24. 2015. Barvinsky I.A. Principles of computer-aided engineering of thermoplastic injection molding: Process settings // CADmaster. 2015. ¹ 2. Barvinsky I., Pirogov A. Moldex3D R13 computer-aided engineering of thermoplastic injection molding // CADmaster. 2014. ¹ 5. P. 44-49. Barvinsky I.A., Barvinskaya I.E. Principles of computer-aided engineering of thermoplastic injection molding: Runner balancing // CADmaster. 2014. ¹ 2. Barvinsky I.A., Barvinskaya I.E. Problems of polymeric materials injection molding: Packing // Polymer Materials. 2014. ¹ 3. P. 3-13. Barvinsky I.A. Principles of computer-aided engineering of thermoplastic injection molding: Selection of analysis method // CADmaster. 2013. ¹ 5. P. 60-64. Barvinsky I.A. Principles of computer-aided engineering of thermoplastic injection molding: Short shot prediction // CADmaster. 2013. ¹ 2. P. 52-55.
Barvinsky I.A., Barvinskaya I.E. Computer-aided
engineering of thermoplastic injection molding: Part shrinkage and warpage
analysis principles.
- Moscow: CSoft, 2013. 304 pages
Barvinsky I.A., Barvinskaya I.E. Computer-aided
engineering of thermoplastic injection molding: Mold cooling analysis
principles.
- Moscow: CSoft, 2013. 178 pages.
Barvinsky I.A., Barvinskaya I.E. Computer-aided
engineering of thermoplastic injection molding: Flow analysis principles.
- Moscow: CSoft, 2013. 774 pages. Barvinsky I.A., Barvinskaya I.E. Introduction to computer-aided engineering of thermoplastic injection molding using Autodesk Simulation Moldflow Insight. - Moscow: CSoft, 2013. 103 pages.
Barvinsky I.A.,
Barvinskaya I.E.
Thermoplastic injection molding troubleshooting Barvinsky I.A. Computer-aided engineering for plastics injection molding: Autodesk Simulation Moldflow Insight 2013 // CADmaster. 2012. ¹ 2. P. 34-35. Barvinsky I.A. Advances and problems of thermoplastic injection molding simulation. Seminar "Thermoplastics injection molding: Advanced technologies and process simulation". MATI - Russian State Technological University. February 16. 2012. Moscow. Braginsky V.A., Barvinsky I.A., Barvinskaya I.E. Shrinkage control methods in the process of thermoplastics injection molding. The 5 th Russian Congress of Plastics Converters. November 14-15. 2011. Moscow. Barvinsky I.A., Barvinskaya I.E. Computer-aided engineering for plastics injection molding: Principles of efficiency // CADmaster. 2011. ¹ 5. P. 56-60. Barvinsky I.A. Shrinkage prediction for injection molded thermoplastics parts // 3rd International Seminar “Modern Plastics Injection Moulding Technologies”. St. Petersburg. September 16-15. 2011. P. 1-28. Barvinsky I.A. Computer-aided engineering for plastics injection molding as tool for solving problems of molded part quality. Proceeding of International Conference “Plastics Processing: Markets, Problems, Opportunities”. Moscow. June 21. 2011. Barvinsky I.A. Autodesk Moldflow Insight 2012: Enhanced capabilities of plastic injection molding analysis // CADmaster. 2011. ¹ 2. P. 20-22. Barvinsky I.A. Computer-aided engineering for plastics injection molding with Autodesk Moldflow Insight 2012: New release. 2011. Barvinsky I.A., Barvinskaya I.E. Problems of hot runner injection molding: Melt temperature control in hot runner molds. Seminar «Hot runner plastics injection molding today and tomorrow». Vladimir's State University. Vladimir. April 5, 2011. Barvinsky I.A. Computer-aided engineering for plastics injection molding with Autodesk Moldflow Adviser 2011. 2011. Barvinsky I.A., Barvinskaya I.E. Problems of polymeric materials injection molding: Short shot // Polymer Materials. 2011. ¹ 1. P. 42-46; ¹ 2. P. 32-35. Barvinsky I.A. Computer-aided engineering for plastics injection molding with Autodesk Moldflow Insight 2011. 2011. Barvinsky I.A., Barvinskaya I.E., Duvidzon V.G. Defects of thermoplastic parts in injection molding: "Flow marks". V International Instrumented Summit. June 3. 2010. Moscow. Barvinsky I.A., Barvinskaya I.E. Global changes in the market of computer-aided engineering software for the injection molding of polymeric materials. V International Instrumented Summit. June 3. 2010. Moscow. Barvinsky I.A., Barvinskaya I.E. Problems of polymeric materials injection molding: Unstable mold filling // Polymer Materials. 2009. ¹ 8. P. 14-21. Barvinsky I.A., Barvinskaya I.E. Problems of polymeric materials injection molding: Weld-lines // Polymer Materials. 2009. ¹ 7. P. 25-33. Barvinsky I.A., Barvinskaya I.E. Increasing the weld-lines quality in injection molded thermoplastics. IV International Instrumented Summit. June 4. 2009. Moscow. Barvinsky I.A., Barvinskaya I.E. Computer-aided engineering of injection molding: Methods and models // Plastics. 2009. ¹ 3. P. 50-54; ¹ 4. P. 63-66. Barvinsky I.A., Barvinskaya I.E. Calculation of cold runner systems of injection molds for thermoplastics. III International Instrumented Summit. June 17-18. 2008. Moscow. Barvinsky I.A. Gas-assisted injection molding of thermoplastics. 2008. Barvinsky I.A., Barvinskaya I.E. Application of computer technologies for evaluation of plastics injection molding. Conference «Polymer materials of XXI century». November 8-9. 2006. Moscow. Barvinsky I.A. Process setting in injection molding technology: Switch-over point. 2006. Barvinsky I.A., Barvinskaya I.E. Effect of thickness differences on quality of injection molded thermoplastic parts // Meeting «Injection molding of plastics». January 26-27. Moscow. 2005. P. 9-15. Barvinsky I.A., Barvinskaya I.E. Effect of part and mold design on packing process during thermoplastic injection molding // Meeting «Injection molding of plastics». January 29-30. 2004. Moscow. P. 30-40. Barvinsky I.A., Barvinskaya I.E. Features of injection molded large frame parts with thin-wall grids // Plasticheskije Massy. 2003. ¹ 2. P. 3-4. Barvinsky I.A.,
Barvinskaya I.E. Effect of
gate location on warpage of injection molded part for fiber glass
reinforced material // Plasticheskije Massy. 2001. ¹ 6. P. 57-58. |
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- Acrylonitrile butadien styrene |
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- Blends of acrylonitrile butadien styrene and nylons |
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- Blends of acrylonitrile butadien styrene and polybutylene terephthalate |
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- Blends of acrylonitrile butadien styrene and polycarbonate |
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- Blends of acrylonitrile butadien styrene and polymethylmethacrylate |
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- Blends of acrylonitrile butadien styrene and polyvinyl chloride |
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- Acrylonitrile chlorinated polyethylene styrene |
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- Acrylonitrile ethylene-propylene styrol |
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- Acrylonitrile styrene acrylate |
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- Blends of acrylonitrile styrene acrylate and polycarbonate |
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- Cellulose acetate |
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- Cellulose acetate butyrate |
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- Cellulose acetate propionate |
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- Cyclic olefin polymer or copolymer |
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- Ethylene butyl acrylate |
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- Ethylene chlorotrifluoroethylene |
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- Ethylene methacrylic acid |
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- Ethylene styrene interpolymer |
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- Ethylene tetrafluoroethylene |
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- Ethylene vinyl acetate |
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- Ethylene vinyl alcohol |
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- Fluorinated ethylene propylene |
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- General purpose polystyrene |
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- High-density polyethylene |
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- High-impact polystyrene |
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- Ionomers |
| -- Chemical structure of ionomers | |
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- Liquid crystal polymer |
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- Low-density polyethylene |
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- Linear low-density polyethylene |
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- Methylmethacrylate acrylonitrile butadien styrene, transparent ABS |
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- Medium-impact polystyrene |
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- Alphamethylstyrene acrilonitrile |
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- Optical polyester |
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- Nylon 6 |
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- Nylon 6-3-T |
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- Nylon 11 |
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- Nylon 12 |
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- Nylon 46 |
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- Nylon 66 |
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- Nylon 410 |
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- Nylon 610 |
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- Nylon 612 |
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- Polyaryletherketon including polyetherketone (PEK), polyetheretherketone (PEEK), polyetherketoneketone (PEKK) |
| -- Chemical structure and manufacturing of PAEK | |
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- Polyamide imide |
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- Poly-m-xylylene adipamide |
| -- Chemical structure and manufacturing of PA MXD6 | |
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- Polybenzimidazole |
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- Polybutylene terephthalate |
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- Blends of polybutylene terephthalate and polycarbonate |
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- Polycarbonate |
| -- Chemical structure and manufacturing of polycarbonate | |
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- Blends of polycarbonate and polyethylene terephthalate |
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- Blends of polycarbonate and polymethylmethacrylate |
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- High-temperature polycarbonate |
| -- Chemical structure of high-temperature polycarbonate | |
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- Polycyclohexanedimethylen terephthalate |
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- Acid-modified polycyclohexanedimethylen terephthalate |
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- Glycol-modified polycyclohexanedimethylen terephthalate |
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- Polyether block amide |
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- Polyestercarbonate |
| -- Chemical structure of polyestercarbonate | |
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- Polyetherimide |
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- Polyethylene naphthalate |
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- Polyether sulphone |
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- Polyethylene terephthalate |
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- Glycol modyfied polyethylene terephthalate |
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- Perfluoroalkoxy |
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- Aliphatic polyketone |
| -- Chemical structure and manufacturing of aliphatic polyketone | |
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- Polymethylmethacrylate |
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- Polymethylpenten |
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- Polyoxymethylene (Acetal) |
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- Polyolefin plastomer |
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- Polypropylene block-copolymer |
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- Polypropylene compound on the base of polypropylene homopolymer, block-copolymer or random-copolymer |
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- Polypropylene homopolymer |
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- Polypropylene random-copolymer |
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- Polyphthalamide |
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- Polyphenylene oxide |
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- Polyphenylene sulfide |
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- Polyaryl sulphone |
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- Polysulphone |
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- Polytrimethylene terephthalate |
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- Polyvinyl chloride |
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- Polyvinylidene fluoride |
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- Reactor-made thermoplastic polyolefin |
| -- Chemical structure and manufacturing of reactor-made TPO | |
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- Styrene acrylonitrile |
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- Styrene acrylonitrile silicone |
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- Styrene butadiene styrene |
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- Sryrene ethylene-butylene styrene |
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- Styrene-isoprene-styrene |
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- Styrene maleic anhydride |
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- Syndiotactic polystyrene |
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- Self-reinforced polyphenylen |
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- Chlorinated ethylene thermoplastic elastomer (melt processable rubber) |
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- Tetrafluoroethylene hexafluoropropylene vinylidenefluoride |
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- Thermoplastic polyester elastomer |
| -- Chemical structure and manufacturing of thermoplastic polyester elastomers | |
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- Thermoplastic polyolefin |
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- Thermoplastic polyurethane |
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- Thermoplastic vulcanizate |
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- Ultra-high molecular weight polyethylene |
| Other guides
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Copyright
(C) Barvinsky I.A., Barvinakaya I.E., 2000-2021
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