1、Phase morphology modulation of silicone
In this study, phase control of silicones in modified epoxy resins was achieved by modulating the curing process, and a series of silicone-modified epoxy resins with different phase sizes were prepared.
2、(PDF) Study of Modified Epoxy Resin
PDF | On Jan 1, 2015, Shuiyun Ren and others published Study of Modified Epoxy Resin | Find, read and cite all the research you need on ResearchGate
3、Research on Properties of Silicone
Based on this, the paper selects bisphenol, an epoxy acrylate, as the matrix and uses chemical grafting to study the heat resistance, mechanical properties, and micromorphology of the modified epoxy resin.
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Abstract: In this paper, a novel polyimide with trifluoromethyl group (PIS) was synthesized successfully and used to improve the toughness of epoxy resins. Five modified epoxy resins (5, 7.5, 10, 12.5 and 15 wt%) were prepared and investigated, respectively.
Study on the properties of chitosan
In this paper, a series of chitosan-modified epoxy resins were successfully synthesized, and their composites were prepared with synthetic resins as the matrix by the vacuum bag molding.
Recent Development of Functional Bio
This review summarizes the research progress of functional bio-based epoxy resins in recent years.
Silicone Modified Epoxy Resins with Enhanced Chemical Resistance
UV resistance was highest in ES-11 (Hydrogenated Epoxy); lower silicon content improved stability ES-11 showed the best corrosion resistance; lower silicon content was more effective.
Synthesis and Study of a Flexible Modified Epoxy Resin HDI
In this study, we developed a novel intrinsic toughening strategy by synthesizing a highly toughened epoxy resin (HDI‐T EP) through molecular design, utilizing hexamethylene diisocyanate trimer as the core structural unit.
Study of Modified Epoxy Resin
Using silicone to modified EP is a new developed way recently to toughen EP effectively. Due to the great difference of the solubility parameter between organic silicon and EP, it is essential...
Research on Properties of Silicone
Based on this, the paper selects bisphenol, an epoxy acrylate, as the matrix and uses chemical grafting to study the heat resistance, mechanical properties, and micromorphology of the modified epoxy resin.
In numerous fields of modern industry, epoxy resins, as high-performance materials, have gained significant attention due to their excellent mechanical properties, electrical insulation, and chemical stability. traditional single-type epoxy resins cannot meet all application demands, leading to the emergence of modified epoxy resins, which have become a highlight in the field of materials science.
Modified epoxy resins refer to functional resins whose original properties are altered through chemical or physical methods to better suit specific application requirements. These modified resins come in a wide variety, each with unique performance characteristics and application fields, representing an important achievement in the development of modern material technologies.
Heat Resistance as an Example High-temperature resistant epoxy resins play critical roles in aerospace, automotive manufacturing, and other fields due to their superior thermal stability and temperature resistance. These resins typically contain special aromatic ring structures, allowing them to maintain their physical and chemical properties under extreme temperatures, thereby ensuring the safety and reliability of equipment.
Flame-Retardant Epoxy Resins Flame-retardant epoxy resins quickly form insulating layers when exposed to flames, effectively isolating oxygen and slowing the spread of fire. Widely used in wires and cables, construction materials, and electronic packaging, these resins significantly enhance the fire safety of materials.
High-Performance Epoxy Resins for Specific Applications For instance, wear-resistant epoxy resins incorporate special fillers and additives to improve abrasion and impact resistance. Commonly used in wear-resistant floor coatings and anti-slip paints, these resins provide robust and durable protective layers for industrial environments.
Electrically Conductive Epoxy Resins Conductive epoxy resins, known for their excellent electrical conductivity, are widely employed in the encapsulation of electronic components. In microelectronics and optoelectronics, these resins ensure stable circuit operation by maintaining low dielectric constants and minimal dielectric loss while providing reliable electrical connectivity.
Environmentally Friendly Epoxy Resins Eco-friendly epoxy resins represent an important branch of modified resins. Produced with fewer solvents, they reduce environmental pollution and are recyclable, aligning with sustainable development goals. Their use in construction coatings and adhesives minimizes volatile organic compound (VOC) emissions, improving indoor air quality.
Emerging Modified Resins Advances in technology have led to the continuous development of new modified resins. For example, self-healing epoxy resins can automatically repair cracks after damage, greatly extending product lifespan. Such resins show tremendous potential in medical devices, pipeline repair, and other fields.
the diversity of modified epoxy resins, each with distinct properties and applications, addresses the needs of various industries. Through in-depth research and development, these resins drive progress in materials science and industrial and societal development. In the future, with ongoing breakthroughs in new materials technology, modified epoxy resins are poised to reveal even broader发展前景 (development prospects).
