Composites Deformulation (Glass Reinforced, Carbon or Graphite Filled, Fiber Reinforced and More)
Composites Deformulation (Glass Reinforced, Carbon or Graphite Filled, Fiber Reinforced and More)
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absorption spectroscopy (AAS, GFA, FIAS), Our goal is to provide test services as efficiently
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Note: this service is for Research Use Only and Not intended for clinical use.
With the development of science and technology, a variety of new composites with excellent performance continuously emerge. Composites with superior characteristics such as good bearing capacity, excellent mechanical properties, strong vibration damping, wear resistance, heat resistance get to notice on the market. Composites are engineered or naturally occurring materials made from two or more materials that, when combined, are stronger than those individual materials by themselves. At the same time, those individual materials remain separate and distinct at the macroscopic or microscopic scale within the finished structure.
Composites are typically designed with a special use, such as added strength, efficiency or durability. Fiber-Reinforced Polymer (FRP) composites, are usually with carbon, glass, aramid, polymer or natural fibers embedded in a polymer matrix. There are also other matrix materials that can be used for composites such as metal matrix, ceramic matrix and carbon (graphite) matrix. The matrix can protect the fibers from external damage and transfer the load between the fibers. The fibers, in turn, provide strength and stiffness to reinforce the matrix—and help it resist cracks and fractures. The composites may also contain fillers, additives, core materials and surface finishes designed to improve the manufacturing process, appearance and performance of the final product. Figure 1 shows the structure of 3D woven composites material on meso- and microscale.
Fig.1 Structure of 3D woven composites material on meso- and microscale.
Alfa Chemistry is an industry leader in the deformulation of products and materials. With years of experience, our experts use material deformulation and reverse engineering to satisfy your needs:
Competitive analysis of the materials or components within a competitor's product, to look for raw material, additives or design.
Quality assessment and control of your material, providing continuous quality assurance by monitoring its formulation over a period of time.
Material identification.
Alfa Chemistry uses different analytical instruments for composites reverse engineering including TOF-SIMS, GPC, DSC/TGA, GC-MS, FTIR, NMR, SEM-EDS, ICP, LC-MS, XRD, and so on. Our reverse engineering experts and material scientists can provide physical and chemical analysis, component characterization, element mapping, and additional information as you need. No matter what your concern is, our scientists are always ready to help. If you have any problems regarding composites material deformulation, please contact us without hesitation. We will deliver your projects on time with satisfaction.