What does SERU mean?
SERU means Development of Silicone Sealants curable by UV radiation
This acronym/slang usually belongs to Undefined category.
What is the abbreviation for Development of Silicone Sealants curable by UV radiation?
Development of Silicone Sealants curable by UV radiation can be abbreviated as SERU
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Most popular questions people look for before coming to this page
| Q: A: |
What does SERU stand for? SERU stands for "Development of Silicone Sealants curable by UV radiation". |
| Q: A: |
How to abbreviate "Development of Silicone Sealants curable by UV radiation"? "Development of Silicone Sealants curable by UV radiation" can be abbreviated as SERU. |
| Q: A: |
What is the meaning of SERU abbreviation? The meaning of SERU abbreviation is "Development of Silicone Sealants curable by UV radiation". |
| Q: A: |
What is SERU abbreviation? One of the definitions of SERU is "Development of Silicone Sealants curable by UV radiation". |
| Q: A: |
What does SERU mean? SERU as abbreviation means "Development of Silicone Sealants curable by UV radiation". |
| Q: A: |
What is shorthand of Development of Silicone Sealants curable by UV radiation? The most common shorthand of "Development of Silicone Sealants curable by UV radiation" is SERU. |
Abbreviations or Slang with similar meaning
- BIODOS - Development of Biological Dosimetry systems for monitoring the impact of Solar UVB radiation on the biosphere and human health
- BIDES - Development of a new vocational training structurefor the Business Interpretation education, especially emphazising the Development and testing of a new Educational Strategy for adults with a multi-cu
- COCONUT - Development of methods for the Clonal propagation of elite, disease resistant palms by somatic embryogenesis
- 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
- DAVU - Development of fast Drying Adhesives by Ultravioletlight curing
- DESCO - Development of Engineering Surface Coatings Obtained by advanced, cost effective and environmentally friendly technologies
- GYROSCOPE - Development of a real time in situ observing system in the North Atlantic Ocean, by an array of lagrangian profiling floats
- HIVAC - Development of virus-like particle (VLP) candidate for HIV produced by baculo multi-gene expression Vectors
- HVOF - Development of a quality control system for alloyedwc-ni - co - cr coatings obtained by High Velocity Oxy-Fuel spraying
- MHYSTI - Development of a Management system for Hydroxide metallic Sludge produced by the Surface Treatment Industry
- MONA-LISA - Development of novel conjugated MOlecular NAnostructures by LIthography and their transport Scaling Aspects
- MUSCL - DEVELOPMENT OF AN OPTICAL DETECTION SYSTEM FOR DISEASES IN FIELD CROPS WITH A VIEW TO REDUCE PESTICIDES BY TARGETED APPLICATION
- OPTIDIS - Development of an OPTIcal detection system for DISeases in field crops with a view to reduce pesticides by targeted application
- REFILL - Development of novel processing for the production of low-cost by-product Fillers as a replacement for high-cost primary Fillers
- SERU - Development of Silicone Sealant curable by U.V. Radiation
- SURE-PLAST - Development of multipurpose industrial units for recycling of plastic wastes by on-line pattern recognition of polymer features
- THERAVACC - Development of THERApeutic VACCines for chronic infections caused by the hepatitis c virus
- UVTOX - Development and field validation of biosensor methods for the assessment of the effects of pollution and solar UV radiation on commercially and ecologically important marine invertebrates
- WARMIT - Development of simple, low cost heat recovery technology to help SME suppliers differentiate themselves by adding value to eco-efficient product
- UVR - UV radiation