Notes, guides, and analysis on industrial resins and composite materials.
Detailed specifications of the AR-700 epoxy resin, ideal for floors with high mechanical and chemical demands.
The AR-700 epoxy resin has been specifically formulated to withstand heavy traffic and exposure to solvents in manufacturing plants. This article breaks down its mechanical properties, curing times, and application recommendations. It includes data on compressive strength and adhesion to concrete, as well as test results under controlled humidity conditions. Engineers and project managers will find here the necessary information to evaluate its use in industrial floor rehabilitation projects.
Read ArticleTechnical analysis of the differences between thermoset resins and their impact on the final strength of composite parts.
The choice between polyester and epoxy resin determines key properties such as tensile strength, dimensional stability, and tolerance to high temperatures. This article compares both polymer families in typical scenarios of the Argentine industry: manufacturing of tanks, housings, and structural profiles. Comparative tables of costs, gel times, and chemical resistance are presented, along with recommendations for selecting the appropriate material according to the final application.
Read ArticleStep-by-step instructions for using the Ambermere strength simulator in engineering projects.
The Ambermere strength simulator allows engineers to model stresses in composite materials before placing orders. This guide explains how to input parameters such as modulus of elasticity, layer thickness, and load conditions. Practical simulation examples are included for a fiberglass-reinforced epoxy resin beam and a sandwich panel for industrial enclosures. The results help optimize design and reduce oversizing, saving costs on raw materials.
Read ArticleArticles, datasheets and guides for engineers and industry professionals.
Applications in manufacturing plants
Detailed specifications of AR-700 epoxy resin, ideal for floors with high mechanical and chemical demands. Includes compressive strength and adhesion data on concrete.
Read articlePolyester vs epoxy resins for molded parts
Technical analysis of key differences: tensile strength, dimensional stability, and thermal tolerance. Comparative tables for material selection.
Read articleStep-by-step instructions for engineers
Practical guide for modeling stresses in fiberglass-reinforced epoxy resins. Simulation examples to optimize design and reduce oversizing.
Read article