What does POLYPROMS mean?
POLYPROMS means Development of advanced POLYmerisation PROcessModelling, Simulation, design and optimisation tools
This acronym/slang usually belongs to Undefined category.
What is the abbreviation for Development of advanced POLYmerisation PROcessModelling, Simulation, design and optimisation tools?
Development of advanced POLYmerisation PROcessModelling, Simulation, design and optimisation tools can be abbreviated as POLYPROMS
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Most popular questions people look for before coming to this page
| Q: A: |
What does POLYPROMS stand for? POLYPROMS stands for "Development of advanced POLYmerisation PROcessModelling, Simulation, design and optimisation tools". |
| Q: A: |
How to abbreviate "Development of advanced POLYmerisation PROcessModelling, Simulation, design and optimisation tools"? "Development of advanced POLYmerisation PROcessModelling, Simulation, design and optimisation tools" can be abbreviated as POLYPROMS. |
| Q: A: |
What is the meaning of POLYPROMS abbreviation? The meaning of POLYPROMS abbreviation is "Development of advanced POLYmerisation PROcessModelling, Simulation, design and optimisation tools". |
| Q: A: |
What is POLYPROMS abbreviation? One of the definitions of POLYPROMS is "Development of advanced POLYmerisation PROcessModelling, Simulation, design and optimisation tools". |
| Q: A: |
What does POLYPROMS mean? POLYPROMS as abbreviation means "Development of advanced POLYmerisation PROcessModelling, Simulation, design and optimisation tools". |
| Q: A: |
What is shorthand of Development of advanced POLYmerisation PROcessModelling, Simulation, design and optimisation tools? The most common shorthand of "Development of advanced POLYmerisation PROcessModelling, Simulation, design and optimisation tools" is POLYPROMS. |
Abbreviations or Slang with similar meaning
- FLOWVIEW - Development of Integrated Packages for Simulation and Visualisation of Complex Flows
- AIT - Advanced Information Technology in design and manufacturing
- AMITERM - Development of Advanced MIcrowave and light-weight high-speed thermo-Response Mould TEchnology for woven textile-reinforced thermoplastic components
- ASTRAL - Development of Adaptive Solder Technology for Reliability and environment Compatibility of electronic assemblies
- BIOLIVE - Development of industrial solutions for the recycling and valorisation of the OLIVE oil fabrication residues for BIOpolymers andfine chemicals
- CAD-PUMA - Development of an integrated Computer Aided Design and Planning methodology for Underground Marble quarries
- CAMARO - Development of Computer-Aided Moulding Area Reservation and Optimatization system
- COLD WSPS - Development of low-cost methods for treatment and reuse of drainage and urban wastewater by adaptation of Waste Stabilitation Ponds for extreme continental climates
- DACRO - Development of Advanced CFD methods for the design of Rotorcraft blades
- DAIDA - Development of Advanced Interactive Data
- DARSTIMEX - Development of Advanced Remote-Sensing Technology In the Initial phases of Mineral Exploration
- DATEG - Development of Advanced Tools for Ecological and Economic sawing of Granite
- DEBATE - Development of the European Business Adviser Training and Exchange
- DEBATE - Development of the European Business Advisor Training and Exchange
- ECOMARBLE - Development of advanced tools for the production of artworks using MARBLE powder
- JOTSUP - Development of advanced Joining Technologies for SUPermartensitic stainless steel line pipes
- QUALYTRAIN - Development of a European system for certification and evaluation of the Quality of continuing Training
- SESMAB - Development of an experimental tool for design of large SES fast ships
- TECCI - Development of a handbook for self-learning and on/off-the-job-training to improve Technological operator-skills in the European Cacao and Chocolate Industry
- dvt - Design and Verification Tools