Huntsman Advanced Materials produces and develops specialty epoxy resins and curing agents for high-performance applications. It has a large portfolio of epoxy chemistries including bisphenol A, bisphenol F, novolac, cycloaliphatic, and other specialty resins. Huntsman works with formulators to identify the best resins and pre-formulated products to meet specific formulation requirements and help customers optimize processes and quickly bring products to market. The company has been a global partner and innovator in this industry for over 60 years.
How to Manufacture Synthetic Resins (Actel Resins, Amino Resins, Casein Resin...Ajjay Kumar Gupta
Synthetic resin is typically manufactured using a chemical polymerization process. This process then results in the creation of polymers that are more stable and homogeneous than naturally occurring resin. Since they are more stable and are cheaper, various forms of synthetic resin are used in a variety of products such as plastics, paints, varnishes, and textiles. There are various kinds of synthetic resins; acetal resins, amino resins, casein resins, epoxy resins, emulsion polymers, hydrocarbon resins, polyamide resins, polyesters rubber resins etc. The classic variety is epoxy resin, manufactured through polymerization, used as a thermoset polymer for adhesives and composites.
Tags
Alkyl and hydroxy alkyl alkylcellulose, Applications of Synthetic Resins, Best small and cottage scale industries, Business Plan for a Startup Business, Business start-up, Emulsion polymers manufacture, Formulation of Synthetic Resins, Formulation of Resins, How to Manufacture Synthetic Resins, How to start a successful synthetic resin business, How to start a synthetic resin production Business, How to start a synthetic resin production?, How to Start Emulsions of Synthetic Resin Business, How to start synthetic resin production Industry in India, Indene-coumarone resins, Manufacturing process of Acrylonitrile Resins, Manufacturing process of Actel Resins, Manufacturing process of Alkyd Resin, Manufacturing process of Amino Resins, Manufacturing process of Casein Resins, Manufacturing process of Epoxy Resins, Manufacturing process of Ion-exchange Resins, Manufacturing process of Phenolic resins, Manufacturing process of Polyamide Resins, Manufacturing process of Polycarbonates Resins, Manufacturing process of Polyesters, Manufacturing process of Polyurethane resins, Manufacturing process of Polyvinyl Acetate Solid Resins, Manufacturing process of Silicone resins, Modern small and cottage scale industries, Most Profitable Synthetic resin Business Ideas, New small scale ideas in synthetic resin production industry, Process of making synthetic resin adhesive, Processing of synthetic resin, Production of a synthetic resin, Profitable Small Scale synthetic resin Manufacturing, Project for startups, Resin Types and Production, Rosin & rosin derivatives, Rubber resins Formulation, Setting up and opening your synthetic resin Business, Shellac resins, Small scale Commercial synthetic resin making, Small Scale Synthetic resin manufacturing Projects, Small scale synthetic resin production line, Small Start-up Business Project, Start Up India, Stand up India, Starting a synthetic resin production Business, Start-up Business Plan for synthetic resin production, Startup ideas, Startup Project, Startup Project for synthetic resin production, Startup project plan, Sucrose resins, Synthetic resin Based Profitable Projects, Synthetic resin Based Small Scale Industries Projects, Synthetic Resin Business,
Typical PSA dispersion can be much improved in adhesive performance by adding tackifier dispersions. Especially the tack and peel on low surface energy sustrates like untreated PE and PP is affected positively, while cohesion is still sufficient for the application. When developing tackifier dispersions we need to walk a fine line between creating a stable final adhesive dispersion and not affecting the tackifier action negatively. In the current presentation we will show the nature and the action of the tackifier, the surfactant, and the influence of surfactant packages to come to a stable, fast running PSA dispersion which has excellent adhesive performance.
Introduction, types, raw material, reaction mechanism, manufacturing process, flow sheet of production process, properties, applications, industries in India, commercial name
"Introduction to Epoxies" by Hubert Monteiro, Royce InternationalRoyceIntl
Hubert presents an introduction to epoxies.
Hubert Monteiro is a Technical Consultant for Royce International and, as an active member of the Thermoset Resin Formulators Association (TRFA) since it was founded 10 years ago, has a unique perspective on the role industry associations play in the technical community.
Synthetic resins are materials with a property of interest that is similar to natural plant resins: they are viscous liquids that are capable of hardening permanently. Otherwise, chemically they are very different from the various resinous compounds secreted by plants. Synthetic resins comprise a large class of synthetic products that have some of the physical properties of natural resins but are different chemically. Synthetic resins are not clearly differentiated from plastics.
Tags
Alkyl and hydroxy alkyl alkylcellulose, Applications of Synthetic Resins, Best small and cottage scale industries, Business Plan for a Startup Business, Business start-up, Emulsion polymers manufacture, Formulation of Synthetic Resins, Formulation of Resins, Great Opportunity for Startup, How to Manufacture Synthetic Resins, How to start a successful synthetic resin business, How to start a synthetic resin production Business, How to start a synthetic resin production?, How to Start Emulsions of Synthetic Resin Business, How to start synthetic resin production Industry in India, Indene-coumarone resins,Manufacturing process of Epoxy Resins, Manufacturing process of Ion-exchange Resins, Manufacturing process of Phenolic resins, Manufacturing process of Polyamide Resins, Manufacturing process of Polyvinyl Acetate Solid Resins, Manufacturing process of Silicone resins, Modern small and cottage scale industries, Most Profitable Synthetic resin Business Ideas, New small scale ideas in synthetic resin production industry, Process of making synthetic resin adhesive, Processing of synthetic resin, Production of a synthetic resin, Profitable Small Scale synthetic resin Manufacturing, Project for startups, Resin Types and Production, Rosin & rosin derivatives, Rubber resins Formulation, Setting up and opening your synthetic resin Business, Shellac resins, Small scale Commercial synthetic resin making, Small Scale Synthetic resin manufacturing Projects, Small scale synthetic resin production line, Starting a synthetic resin production Business, Start-up Business Plan for synthetic resin production, Startup Project for synthetic resin production, Startup project plan, Sucrose resins, Synthetic resin Based Profitable Projects, Synthetic resin Based Small Scale Industries Projects, Synthetic Resin Business, Synthetic resin Making Small Business Manufacturing, Synthetic Resin Manufacturing, Synthetic resin manufacturing Industry in India, Synthetic resin manufacturing process, Synthetic resin method, Synthetic resin production, Synthetic resin production Business, Synthetic Resin Technology with formulation, Synthetic resin uses, Synthetic Resins, Synthetic Resins Technology book, Technological advances in the manufacture of resins, Technology of Synthetic Resins, Terpene resins, Types and applications of synthetic resin, Uses of rosin in the polymer fiel, Water-reducible resins
Melamine resin or melamine formaldehyde is a hard, thermosetting plastic material made from melamine and formaldehyde by polymerization. The presentation includes the preparation of MF, its properties and applications.
my education channel https://www.youtube.com/channel/UCl1xjEFQkDTJCHn3UFcyEFg
paint course part 1 painting
Binders : Hold the coating together – act like “glue.”
Pigments: Provide color, UV protection and hiding to coatings.
Additives: Give coatings their unique properties.
Resins: Synthetic or vegetable materials that are used as a base for coatings.
Solvents: (water or mineral spirits) allow for the material to be suspended, and once it evaporates from the coating, it allows for the film formation.
Formulation and Manufacturing Process of Alkyd Resin, Amino Resin, Phenolic R...Ajjay Kumar Gupta
In polymer chemistry and materials science, resin is a "solid or highly viscous substance," which are typically convertible into polymers. Such viscous substances can be plant-derived or synthetic in origin. They are often mixtures of organic compounds. Many plants, particularly woody plants produce resin in response to injury. The resin acts as a bandage protecting the plant from invading insects and pathogens.
See more
http://goo.gl/nL87v7
http://goo.gl/XsPcRR
http://goo.gl/KmQ0DN
http://www.entrepreneurindia.co/
Tags
Alkyd Resin Manufacturing, Applications of Emulsion Polymers, Best small and cottage scale industries, Business Plan for a Startup Business, Business start-up, Chemistry and Technology of Epoxy Resins, Emulsion polymers manufacture, Epoxy resin manufacturing plant, Epoxy resins manufacturing process, Everything about resins in a single book, Formulation of Acrylic Resin, Formulation of Alkyd Resin, Formulation of Amino Resin, Formulation of Epoxy Resin, Formulation of Paints, Formulation of Phenolic Resin, Formulation of Polyurethane Resins, Formulation of Silicone Resin, Formulation of Varnishes, Handbook of Epoxy Resins, How to manufacture resin, How to Start a Resins Production Business, How to start a successful Resin production business, How to Start Emulsions of Synthetic Resin Business, How to Start Resin production Industry in India, Industrial Resins, Manufacturing Process of Acrylic Resin, Manufacturing Process of Alkyd Resin, Manufacturing Process of Amino Resin, Manufacturing Process of Paints, Manufacturing Process of Phenolic Resin, Manufacturing Process of Pigments & Additives, Manufacturing Process of Polyurethane Epoxy Resin, Manufacturing Process of Silicone Resin, Manufacturing Process of Varnishes, Modern small and cottage scale industries, Most Profitable Resin production Business Ideas, New small scale ideas in Resin manufacturing industry, Oleoresinous Manufacturing Equipment, Phenolic resin manufacturing, Plastic Resin & Synthetic Fiber Manufacturing, Polyester resin manufacturing process, Preparation and Formulation of Silicone Resin based Coatings, Preparation of Project Profiles, Process technology books, Profitable small and cottage scale industries, Profitable Small Scale Resins Manufacturing, Project for startups, Project identification and selection, Resin Based Small Scale Industries Projects, Resin manufacturing Industry in India, Resin manufacturing plant, Resin manufacturing process, Resin manufacturing Projects, Resin production Business, Resin production process, Resin Types and Production, Resins Based Profitable Projects, Resins for Surface Coatings: Polyurethanes, Resins properties and applications, Resins Small Business Manufacturing, Resins Technology book, Setting up and opening your Resin Business, Setting up of Resin production Units, Small scale Commercial Resin making, Small scale Resin production line
How to Manufacture Synthetic Resins (Actel Resins, Amino Resins, Casein Resin...Ajjay Kumar Gupta
Synthetic resin is typically manufactured using a chemical polymerization process. This process then results in the creation of polymers that are more stable and homogeneous than naturally occurring resin. Since they are more stable and are cheaper, various forms of synthetic resin are used in a variety of products such as plastics, paints, varnishes, and textiles. There are various kinds of synthetic resins; acetal resins, amino resins, casein resins, epoxy resins, emulsion polymers, hydrocarbon resins, polyamide resins, polyesters rubber resins etc. The classic variety is epoxy resin, manufactured through polymerization, used as a thermoset polymer for adhesives and composites.
Tags
Alkyl and hydroxy alkyl alkylcellulose, Applications of Synthetic Resins, Best small and cottage scale industries, Business Plan for a Startup Business, Business start-up, Emulsion polymers manufacture, Formulation of Synthetic Resins, Formulation of Resins, How to Manufacture Synthetic Resins, How to start a successful synthetic resin business, How to start a synthetic resin production Business, How to start a synthetic resin production?, How to Start Emulsions of Synthetic Resin Business, How to start synthetic resin production Industry in India, Indene-coumarone resins, Manufacturing process of Acrylonitrile Resins, Manufacturing process of Actel Resins, Manufacturing process of Alkyd Resin, Manufacturing process of Amino Resins, Manufacturing process of Casein Resins, Manufacturing process of Epoxy Resins, Manufacturing process of Ion-exchange Resins, Manufacturing process of Phenolic resins, Manufacturing process of Polyamide Resins, Manufacturing process of Polycarbonates Resins, Manufacturing process of Polyesters, Manufacturing process of Polyurethane resins, Manufacturing process of Polyvinyl Acetate Solid Resins, Manufacturing process of Silicone resins, Modern small and cottage scale industries, Most Profitable Synthetic resin Business Ideas, New small scale ideas in synthetic resin production industry, Process of making synthetic resin adhesive, Processing of synthetic resin, Production of a synthetic resin, Profitable Small Scale synthetic resin Manufacturing, Project for startups, Resin Types and Production, Rosin & rosin derivatives, Rubber resins Formulation, Setting up and opening your synthetic resin Business, Shellac resins, Small scale Commercial synthetic resin making, Small Scale Synthetic resin manufacturing Projects, Small scale synthetic resin production line, Small Start-up Business Project, Start Up India, Stand up India, Starting a synthetic resin production Business, Start-up Business Plan for synthetic resin production, Startup ideas, Startup Project, Startup Project for synthetic resin production, Startup project plan, Sucrose resins, Synthetic resin Based Profitable Projects, Synthetic resin Based Small Scale Industries Projects, Synthetic Resin Business,
Typical PSA dispersion can be much improved in adhesive performance by adding tackifier dispersions. Especially the tack and peel on low surface energy sustrates like untreated PE and PP is affected positively, while cohesion is still sufficient for the application. When developing tackifier dispersions we need to walk a fine line between creating a stable final adhesive dispersion and not affecting the tackifier action negatively. In the current presentation we will show the nature and the action of the tackifier, the surfactant, and the influence of surfactant packages to come to a stable, fast running PSA dispersion which has excellent adhesive performance.
Introduction, types, raw material, reaction mechanism, manufacturing process, flow sheet of production process, properties, applications, industries in India, commercial name
"Introduction to Epoxies" by Hubert Monteiro, Royce InternationalRoyceIntl
Hubert presents an introduction to epoxies.
Hubert Monteiro is a Technical Consultant for Royce International and, as an active member of the Thermoset Resin Formulators Association (TRFA) since it was founded 10 years ago, has a unique perspective on the role industry associations play in the technical community.
Synthetic resins are materials with a property of interest that is similar to natural plant resins: they are viscous liquids that are capable of hardening permanently. Otherwise, chemically they are very different from the various resinous compounds secreted by plants. Synthetic resins comprise a large class of synthetic products that have some of the physical properties of natural resins but are different chemically. Synthetic resins are not clearly differentiated from plastics.
Tags
Alkyl and hydroxy alkyl alkylcellulose, Applications of Synthetic Resins, Best small and cottage scale industries, Business Plan for a Startup Business, Business start-up, Emulsion polymers manufacture, Formulation of Synthetic Resins, Formulation of Resins, Great Opportunity for Startup, How to Manufacture Synthetic Resins, How to start a successful synthetic resin business, How to start a synthetic resin production Business, How to start a synthetic resin production?, How to Start Emulsions of Synthetic Resin Business, How to start synthetic resin production Industry in India, Indene-coumarone resins,Manufacturing process of Epoxy Resins, Manufacturing process of Ion-exchange Resins, Manufacturing process of Phenolic resins, Manufacturing process of Polyamide Resins, Manufacturing process of Polyvinyl Acetate Solid Resins, Manufacturing process of Silicone resins, Modern small and cottage scale industries, Most Profitable Synthetic resin Business Ideas, New small scale ideas in synthetic resin production industry, Process of making synthetic resin adhesive, Processing of synthetic resin, Production of a synthetic resin, Profitable Small Scale synthetic resin Manufacturing, Project for startups, Resin Types and Production, Rosin & rosin derivatives, Rubber resins Formulation, Setting up and opening your synthetic resin Business, Shellac resins, Small scale Commercial synthetic resin making, Small Scale Synthetic resin manufacturing Projects, Small scale synthetic resin production line, Starting a synthetic resin production Business, Start-up Business Plan for synthetic resin production, Startup Project for synthetic resin production, Startup project plan, Sucrose resins, Synthetic resin Based Profitable Projects, Synthetic resin Based Small Scale Industries Projects, Synthetic Resin Business, Synthetic resin Making Small Business Manufacturing, Synthetic Resin Manufacturing, Synthetic resin manufacturing Industry in India, Synthetic resin manufacturing process, Synthetic resin method, Synthetic resin production, Synthetic resin production Business, Synthetic Resin Technology with formulation, Synthetic resin uses, Synthetic Resins, Synthetic Resins Technology book, Technological advances in the manufacture of resins, Technology of Synthetic Resins, Terpene resins, Types and applications of synthetic resin, Uses of rosin in the polymer fiel, Water-reducible resins
Melamine resin or melamine formaldehyde is a hard, thermosetting plastic material made from melamine and formaldehyde by polymerization. The presentation includes the preparation of MF, its properties and applications.
my education channel https://www.youtube.com/channel/UCl1xjEFQkDTJCHn3UFcyEFg
paint course part 1 painting
Binders : Hold the coating together – act like “glue.”
Pigments: Provide color, UV protection and hiding to coatings.
Additives: Give coatings their unique properties.
Resins: Synthetic or vegetable materials that are used as a base for coatings.
Solvents: (water or mineral spirits) allow for the material to be suspended, and once it evaporates from the coating, it allows for the film formation.
Formulation and Manufacturing Process of Alkyd Resin, Amino Resin, Phenolic R...Ajjay Kumar Gupta
In polymer chemistry and materials science, resin is a "solid or highly viscous substance," which are typically convertible into polymers. Such viscous substances can be plant-derived or synthetic in origin. They are often mixtures of organic compounds. Many plants, particularly woody plants produce resin in response to injury. The resin acts as a bandage protecting the plant from invading insects and pathogens.
See more
http://goo.gl/nL87v7
http://goo.gl/XsPcRR
http://goo.gl/KmQ0DN
http://www.entrepreneurindia.co/
Tags
Alkyd Resin Manufacturing, Applications of Emulsion Polymers, Best small and cottage scale industries, Business Plan for a Startup Business, Business start-up, Chemistry and Technology of Epoxy Resins, Emulsion polymers manufacture, Epoxy resin manufacturing plant, Epoxy resins manufacturing process, Everything about resins in a single book, Formulation of Acrylic Resin, Formulation of Alkyd Resin, Formulation of Amino Resin, Formulation of Epoxy Resin, Formulation of Paints, Formulation of Phenolic Resin, Formulation of Polyurethane Resins, Formulation of Silicone Resin, Formulation of Varnishes, Handbook of Epoxy Resins, How to manufacture resin, How to Start a Resins Production Business, How to start a successful Resin production business, How to Start Emulsions of Synthetic Resin Business, How to Start Resin production Industry in India, Industrial Resins, Manufacturing Process of Acrylic Resin, Manufacturing Process of Alkyd Resin, Manufacturing Process of Amino Resin, Manufacturing Process of Paints, Manufacturing Process of Phenolic Resin, Manufacturing Process of Pigments & Additives, Manufacturing Process of Polyurethane Epoxy Resin, Manufacturing Process of Silicone Resin, Manufacturing Process of Varnishes, Modern small and cottage scale industries, Most Profitable Resin production Business Ideas, New small scale ideas in Resin manufacturing industry, Oleoresinous Manufacturing Equipment, Phenolic resin manufacturing, Plastic Resin & Synthetic Fiber Manufacturing, Polyester resin manufacturing process, Preparation and Formulation of Silicone Resin based Coatings, Preparation of Project Profiles, Process technology books, Profitable small and cottage scale industries, Profitable Small Scale Resins Manufacturing, Project for startups, Project identification and selection, Resin Based Small Scale Industries Projects, Resin manufacturing Industry in India, Resin manufacturing plant, Resin manufacturing process, Resin manufacturing Projects, Resin production Business, Resin production process, Resin Types and Production, Resins Based Profitable Projects, Resins for Surface Coatings: Polyurethanes, Resins properties and applications, Resins Small Business Manufacturing, Resins Technology book, Setting up and opening your Resin Business, Setting up of Resin production Units, Small scale Commercial Resin making, Small scale Resin production line
Project Sales Corp is the authorised distributors for Lubchem USA Valve Greases in India. Please log onto www.pscspecialtylubricants.com to know more or email shivani@projectsalescorp.com
La energía eólica es la fuente de energía de mayor crecimiento en el mundo, este tipo de energía aporta a la industria y las empresas electricidad limpia y renovable.
Hoy en día, el diseño de los aerogeneradores y las turbinas de los molinos se está volviendo cada vez más complejo y sofisticado, para poder construir parques eólicos que puedan operar en condiciones altamente exigentes en lugares en alta mar y en climas fríos y / o cálidos.
Huntsman Advanced Materials es un apasionado de mejorar la calidad de vida de las personas en todo el mundo. Desde hace más de una década, la compañía se centró en apoyar la cadena de valor de la energía eólica. Los equipos de Investigación y Desarrollo, así como el equipo de asistencia técnica, han trabajado estrechamente con la industria y con todos los principales fabricantes de equipos de energía eólica para desarrollar la tecnología más avanzada que mejora los índices de resistencia / peso y los requisitos de fatiga.
CONTENTS
1 SCOPE
2 PROPERTIES OF FLUID
2.1 General Properties of Sodium Hydroxide
2.2 Physical Properties of Sodium Hydroxide and its Solutions
2.3 Chemical Properties and uses of Sodium Hydroxide
2.4 Physiological effects of Sodium Hydroxide
2.5 Specifications of Commercial Caustic Soda Grades
3 CHOICE OF PUMP TYPE
3.1 Pump Duty
3.2 Pump Type
4 RECOMMENDED LINE DIAGRAMS
5 RECOMMENDED LAYOUT
6 CONSTRUCTION FEATURES
7 MATERIALS OF CONSTRUCTION
7.1 Nickel and Nickel Alloys
7.2 Austenitic Stainless Steel
7.3 Aluminium, Aluminium Alloys, etc.
7.4 Non-Metallic Materials
TABLES
1 PHYSICAL PROPERTIES (Solid Form)
2 PHYSICAL PROPERTIES (Solution Form)
3 CAUSTIC SODA GRADES
FIGURES
1.1 LINE DIAGRAM - HORIZONTAL GLANDED, GLANDLESS AND VERTICAL IN-LINE PUMPS
1.2 LINE DIAGRAM - VERTICAL SPINDLE CANTILEVER PUMPS
1.3 LINE DIAGRAM - SELF PRIMING PUMPS
1.4 LINE DIAGRAM - RECIPROCATING PLUNGER METERING PUMPS
1.5 LINE DIAGRAM - POSITIVE DISPLACEMENT DIAPHRAGM METERING PUMPS
1.6 WATER FLUSHING ARRANGEMENT FOR DOUBLE MECHANICAL SEAL
1.7 WATER FLUSH (QUENCH) ARRANGEMENT FOR SINGLE HARD FACED (CARBIDE) SEAL AND BACK-UP LIP SEAL
2 PHASE DIAGRAM OF NaOH-H2O
3 VISCOSITY OF AQUEOUS CAUSTIC SODA SOLUTIONS
4 VAPOR PRESSURE OF AQUEOUS CAUSTIC SODA SOLUTIONS
5 ENTHALPY CONCENTRATION FOR AQUEOUS CAUSTIC SODA SOLUTIONS
6 SPECIFIC GRAVITY FOR AQUEOUS CAUSTIC SODA SOLUTIONS
7 DILUTION OF CAUSTIC SODA LIQUOR
8 THERMAL CONDUCTIVITY OF AQUEOUS CAUSTIC SODA SOLUTIONS
9 SPECIFIC HEAT OF CAUSTIC SODA SOLUTIONS
10 BOILING POINTS OF STRONG CAUSTIC SODA SOLUTIONS AT REDUCED PRESSURE
11 COMMENCEMENT OF FREEZING OF CAUSTIC SODA SOLUTIONS (0 - 52% W/W)
12 TEMPERATURES ATTAINED ON DISSOLUTION OF ANHYDROUS CAUSTIC SODA
13 HEAT OF SOLUTION FOR ANHYDROUS CAUSTIC SODA
14 SOLUBILITY OF SODIUM CHLORIDE IN CAUSTIC SODA SOLUTIONS
15 DENSITY - CONCENTRATION TABLES FOR CAUSTIC SODA SOLUTIONS AT 600 F (15.5 0 C)
16 MATERIAL SELECTION CHART FOR CAUSTIC SODA HANDLING
SRC Internaonal is a leading company that specializes in various fields of the paint
industry. We have three main branches, SRC Resins, SRC Chemicals, and SRC Logisc.
``SRC Resins`` is a leading manufacturer of Alkyd and Acrylic resins, using
state-of-the-art technology and high-quality raw materials to produce a wide range
of Alkyd and Acrylic resins suitable for various industrial applicaons.
``SRC Chemicals`` specializes in sourcing and supplying high-quality paint raw
materials such as Polyisocyanates, TiO2 and some paint addives. While ``SRC
Logisc`` is an internaonal transport company that provides reliable and efficient
logiscs soluons for ADR Goods transport. All of our branches are commied to
providing high-quality products and excellent customer service. We strive to be a
dependable and reliable partner for businesses in the paint industry, as well as for
those who need internaonal transport soluons.
antioxidant and UV stabilizers for the fuel Industry, polymer stabilizers from addivant. baoxu chemical supply addivant equivalents. www.additivesforpolymer.com, info@additivesforpolymer.com
Similar to Building blocks for formulators - Selector guide (20)
Student information management system project report ii.pdfKamal Acharya
Our project explains about the student management. This project mainly explains the various actions related to student details. This project shows some ease in adding, editing and deleting the student details. It also provides a less time consuming process for viewing, adding, editing and deleting the marks of the students.
Water scarcity is the lack of fresh water resources to meet the standard water demand. There are two type of water scarcity. One is physical. The other is economic water scarcity.
Sachpazis:Terzaghi Bearing Capacity Estimation in simple terms with Calculati...Dr.Costas Sachpazis
Terzaghi's soil bearing capacity theory, developed by Karl Terzaghi, is a fundamental principle in geotechnical engineering used to determine the bearing capacity of shallow foundations. This theory provides a method to calculate the ultimate bearing capacity of soil, which is the maximum load per unit area that the soil can support without undergoing shear failure. The Calculation HTML Code included.
Industrial Training at Shahjalal Fertilizer Company Limited (SFCL)MdTanvirMahtab2
This presentation is about the working procedure of Shahjalal Fertilizer Company Limited (SFCL). A Govt. owned Company of Bangladesh Chemical Industries Corporation under Ministry of Industries.
Saudi Arabia stands as a titan in the global energy landscape, renowned for its abundant oil and gas resources. It's the largest exporter of petroleum and holds some of the world's most significant reserves. Let's delve into the top 10 oil and gas projects shaping Saudi Arabia's energy future in 2024.
Immunizing Image Classifiers Against Localized Adversary Attacksgerogepatton
This paper addresses the vulnerability of deep learning models, particularly convolutional neural networks
(CNN)s, to adversarial attacks and presents a proactive training technique designed to counter them. We
introduce a novel volumization algorithm, which transforms 2D images into 3D volumetric representations.
When combined with 3D convolution and deep curriculum learning optimization (CLO), itsignificantly improves
the immunity of models against localized universal attacks by up to 40%. We evaluate our proposed approach
using contemporary CNN architectures and the modified Canadian Institute for Advanced Research (CIFAR-10
and CIFAR-100) and ImageNet Large Scale Visual Recognition Challenge (ILSVRC12) datasets, showcasing
accuracy improvements over previous techniques. The results indicate that the combination of the volumetric
input and curriculum learning holds significant promise for mitigating adversarial attacks without necessitating
adversary training.
Welcome to WIPAC Monthly the magazine brought to you by the LinkedIn Group Water Industry Process Automation & Control.
In this month's edition, along with this month's industry news to celebrate the 13 years since the group was created we have articles including
A case study of the used of Advanced Process Control at the Wastewater Treatment works at Lleida in Spain
A look back on an article on smart wastewater networks in order to see how the industry has measured up in the interim around the adoption of Digital Transformation in the Water Industry.
Explore the innovative world of trenchless pipe repair with our comprehensive guide, "The Benefits and Techniques of Trenchless Pipe Repair." This document delves into the modern methods of repairing underground pipes without the need for extensive excavation, highlighting the numerous advantages and the latest techniques used in the industry.
Learn about the cost savings, reduced environmental impact, and minimal disruption associated with trenchless technology. Discover detailed explanations of popular techniques such as pipe bursting, cured-in-place pipe (CIPP) lining, and directional drilling. Understand how these methods can be applied to various types of infrastructure, from residential plumbing to large-scale municipal systems.
Ideal for homeowners, contractors, engineers, and anyone interested in modern plumbing solutions, this guide provides valuable insights into why trenchless pipe repair is becoming the preferred choice for pipe rehabilitation. Stay informed about the latest advancements and best practices in the field.
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.
3. >
Rely on us with confidence to formulate your
ideas
For more than 60 years Huntsman Advanced Materials, as a
global partner and innovator produces and develops knowledge-
based specialty components for high-end-performance industrial
products. Its unique portfolio based on several chemistries appeals
to formulators, chemists and scientists working in challenging
markets who want to be at the forefront of innovation and product
development. Our products play an integral and important role
across a wide variety of applications.
We value your challenge with more than just
products
Our know-how and expertise allow us to develop building blocks
and preformulated master-batches to answer your specific
formulation requirements.
Huntsman Advanced Materials has a worldwide team of experts
> To identify with you the best building block within its large range
> To modify or develop when needed high perfomance products
> To improve the quality, the durability and the performance of
your products such as mechanical, temperature, fire, chemical
or corrosion resistance and more to help you in process
optimization and to quickly bring your product to market.
The original brands
serving worldwide formulation
industry for more than
half a century.
3
14. Epoxy curing agents and accelerators
2-1 Polyamidoamine based
Hardeners for low to medium Tg two components system, typical applications in adhesives.
Product designation Viscosity H+ active
equivalent
weight
Gel time Characteristics / comments
Conditions 25°C with Araldite®
GY 250, 250 g
Unit mPa.s g/Eq min
Aradur®
350 100 - 400 95 180 Polyaminoimidazoline.
Aradur®
33225 100 - 400 75 - 115 900 Polyamidoimidazoline. Good latency at room temperature.
Aradur®
370 150 - 350 95 70 Polyaminoimidazoline.
Aradur®
250 400 - 700 95 60 Polyamidoamine.
Aradur®
3282-1 900 - 1900 115 100 Formulated polyamidoamine adduct for enhanced adhesion properties.
Good adhesion on unprepared surface.
Aradur®
145 2 400 - 4 000 95 180 Polyaminoimidazoline.
Aradur®
224 4 000 - 7 000 180 > 480 Polyaminoimidazoline.
Aradur®
140 300 - 600 at 75°C 95 120 Polyaminoimidazoline.
Aradur®
125 700 - 900 at 75°C 130 120 Polyamidoamine.
Available in solvent.
Aradur®
115 3 100 - 3 700 at 75°C 240 > 1 000 (50% in
methoxypropylacetate)
Semi-solid polyamidoamine.
Available in solvent.
Aradur®
100 700 -1 100 at 150°C 475 > 1 000 (50% in
methoxypropylacetate)
Semi-solid polyamidoamine.
Available in solvent.
2-2 Aromatic amine based
High performance curing agents for epoxy resins when thermal stability, high temperature performance and chemical resistance are key.
Product designation H+ active
equivalent
weight
Softening point Characteristics / comments
Conditions
Unit g/Eq °C
Aradur®
976-1 63 176 - 180 4,4’- DiaminoDiphenylSulfone. Aero grade.
Industrial grade available.
Aradur®
9664-1 63 176 - 185 Micropulverised
4,4’- DiaminoDiphenylSulfone. Aero grade.
Aradur®
9719-1 63 170 - 180 Micropulverised
3,3’- DiaminoDiphenylSulfone. Aero grade.
15. 2-3 Formulated hardeners and accelerators
2-3-1 Formulated hardeners
Product designation Viscosity H+ active
equivalent
weight
Gel time Tg range Characteristics / comments
Conditions 25°C with Araldite®
GY 250
(100g, 23°C)
cured with
Araldite®
GY 250
Unit mPa.s g/Eq min °C
Aradur®
70 16 000 - 27 000 ~ 900 300 - 500 < -10 Polyetherurethane amine. Hardener giving very high flexibility.
Max elongation at 23 °C 350% and at -10 °C > 250%.
Aradur®
3275 200 - 300 250 ~ 85 < -10 Formulated polyetherpolyamine giving high level of flexibility.
Elongation 110% at 23 °C and up to 50% down to -10 °C.
Aradur®
15-1 100 - 300 140 ~ 18 < 30 Polyamine. Suitable for flexibilizing and hydrophobizing mastics.
Aradur®
90 10 000 - 16 000 200 ~ 5 (20 g) < 50 Polymercaptan. Can be used for epoxy adhesive at room
temperature. Extremely fast cure.
Aradur®
2992 10 - 20 55 ~ 5 75 - 95 Polyamine. Can be used as reactive fast accelerator in combination
with other hardener or for anchor bonding adhesive.
Aradur®
3486 10 - 20 57 ~ 550 95 - 110 Polyamine. Can be used in 2K systems for wet lay-up, infusion,
adhesives. Exhibits very high ultimate elongation in combination with
a long pot life.
Aradur®
3492 5 - 20 52 ~ 325 100 - 120 Polyamine. Can be used in a 2K systems for wet lay-up, infusion,
RTM, adhesives with relativelly long open time at room temperature.
Aradur®
3489 5 - 20 52 ~ 900 90 - 110 Polyamine. Can be used in a 2K systems for wet lay-up, infusion,
RTM, adhesives with very long open time at room temperature.
Aradur®
20317 2 500 - 6 000 ~ 65 65 85 - 110 Formulated aliphatic polyamine adduct. UV resistant (low yellowing).
Aradur®
33641 4 000 - 8 000 58 ~ 15 90 - 110 Formulated araliphatic amine for fast cure. Recommended to
enhance chemical resistance. Suitable for food contact (EU).
Aradur®
20250 130 - 210 30 21 110 - 130 Formulated polyamine for fast cure and processes requiring low
viscosity. Good adhesion to most substrates.
Aradur®
20315 5 500 - 8 000 59 112 135 - 150 Formulated polyamine adduct. Recommended for 2 components
industrial composites and adhesives applications. Suitable for food
contact (EU).
Aradur®
3741 5 - 25 39 ~ 84 115 - 140 Polyamine. Can be used in 2K systems for wet lay-up, infusion,
adhesives. Exhibits excellent mechanical properties and good
thermal resistance.
XB 3473 80 - 125 ~ 43 21 - 29 at 140°C 165 -195 Latent polyamine for high temperature applications.
Aradur®
835 solid 200 - < 80 Purified solid aliphatic polyamine adduct. Flexibilizing hardener with
good chemical resistance. Available in solvent.
Aradur®
9506 solid ~ 75 0 - 10 at 100°C 85 - 105 Solid cyclic polyaminoamide in powder form. Outstanding latency
at room temperature. Very high reactivity when temperature rises
95 - 100°C.
15
16. 2-3-3 Waterbone hardeners
Product designation Viscosity H+ active
equivalent
weight
Pot life Characteristics / comments
Conditions 25°C with Araldite®
GY 776
Unit mPa.s g/Eq min
Aradur®
3985 1 000 - 6 000 ~ 265 ~ 60 Polyamine adduct 54-56% in water.
Aradur®
36 4 000 - 7 000 ~ 165 ~ 150 Polyamine adduct 79-81% in water.
Aradur®
38-1 12 000 - 20 000 ~ 150 ~ 75 Polyamine adduct 79-81% in water.
Aradur®
39 12 000 - 20 000 ~ 335 120 - 240 Polyamine adduct 49-51% in water.
Aradur®
435 13 000 - 23 000 ~ 250 90 - 120 Polyamidoamine adduct 49-51% in water.
Aradur®
340 18 000 - 23 000 ~ 210 120 - 180 Polyamidoamine adduct 49-51% in water.
Aradur®
3987 15 000 - 30 000 ~ 147 ~ 60 Polyamine adduct 80% in water.
Aradur®
3986 15 000 - 35 000 ~ 415 ~ 180 Polyamine adduct 39-41% in water.
Aradur®
35-1 19 000 - 35 000 ~ 380 ~ 90 Polyamine adduct 50-55% in water.
2-3-2 Paste hardeners and accelerators
Product designation Viscosity Gel time Characteristics / comments
Conditions 25°C with Araldite®
GY 250 (ratio 100/20, 130°C)
Unit mPa.s min
Aradur®
1571 28 000 - 40 000 n.a. DICY paste (28% DICY in epoxy resin). Particle size: 98% < 10 μm.
Eliminates manipulation of dicyandiamide in powder form and the
need for heavy dispersion equipments. Homogeneous, agglomerate-
free dispersion. Easy to manipulate and introduce in epoxy resins
formulations.
Accelerator 1573 60 000 - 90 000 15 - 19 Urea based accelerator paste, suggested for use in combination with
Aradur®
1571. Particle size: 98% < 10 μm.
Aradur®
940 250 000 - 600 000 1 - 1.5 with ratio 100/170 Aradur®
9506 based paste (41% Aradur®
9506 in epoxy resin).
Up to 6 months latency at RT. Very high reactivity when temperature
rises 95-100°C.
17. 2-3-4 Liquid accelerators
Product designation Viscosity Characteristics / comments
Conditions 25°C
Unit mPa.s
Accelerator DY 062 0 - 10 Tertiary amine based accelerator. Extremely low viscosity. For ambient and high temperature cure epoxy
systems.
Accelerator 3130 10 - 100 Non amine accelerator for epoxy system. Extremely high reactivity at ambient temperature. Ideal as drop-in
accelerator to cope with cold weather.
Accelerator 960-1 150 - 300 Tertiary amine based accelerator. For ambient cure epoxy systems and alternatively as hardener/catalyst for
high temperature cure epoxy system.
Accelerator DY 061 1 000 - 1 800 Based on tertiary amine accelerator. Improved compatibility with epoxy resin vs. standard tertiary amine and
accelerators. Aero grade.
Accelerator 2950 2 000 - 6 000 Reactive, tertiaryamine based accelerator, for ambient cure epoxy systems. Low plasticising effect.
2-3-5 Solid accelerators
Product designation Softening point Characteristics / comments
Conditions
Unit °C
Accelerator DY 9577 25 - 31 Latent accelerator based on boron trichloride amine complex. Good latency up to 80 ºC. High reactivity above
120 ºC. Fosters homopolymerization of epoxy. Also used as accelerator for anhydride hardener.
Aradur®
HT 973 80 - 95 Boron trifluoride amine complex. Commonly used to cure epoxy at 80-100 °C.
Aradur®
3123 180 - 250 Low toxicity imidazole based accelerator. Low solubility in epoxy resins at room temperature. Outstanding
latency vs. standard imidazole.
Aradur®
1167 89 - 102 Latent modified phenolic accelerator. Outstanding latency up to 80°C. Similar reactivity than urea accelerator
at 120°C and above.
2-4 Anhydride based
Hardeners of choice when process requires very long latency, low viscosity and also when high temperature resistance is targeted.
Product designation Viscosity Molecular
weight
Characteristics / comments
Conditions 25°C
Unit mPa.s g/mol
Aradur®
917-1 50 - 100 166 Methyl tetrahydrophthalic anhydride for high temperature industrial composite applications by filament
winding, RTM and pultrusion.
Aradur®
HY 906 175 - 350 178 Nadic methyl anhydride for high Tg composites and potting applications.
17
18. Tougheners and flexibilizers
3-1 CTBN epoxy terminated
Elastomer-epoxy adducts to increase toughness and flexibility in thermoset formulations. Typical usage in adhesive and composite applications.
Product designation Viscosity Epoxy
equivalent
weight
Elastomer
content
Characteristics / comments
Conditions 25°C
Unit Pa.s g/Eq %
Araldite®
LY 1108 22 - 51 269 - 301 ~ 30 Epoxy terminated, Bisphenol F epoxy / CTBN resin adduct. Contains co-reacted additive
for improved corrosion resistance and adhesion on contaminated surfaces. Very low
viscosity, easy incorporation.
Araldite®
LY 1115 250 - 400 238 - 250 ~ 20 Epoxy terminated, Bisphenol F epoxy / CTBN resin adduct.
Araldite®
LY 1146 350 - 1 100 833 - 1 176 ~ 40 Epoxy terminated, Bisphenol A epoxy / CTBN resin adduct. Contains co-reacted additive
for improved corrosion resistance and adhesion on contaminated surfaces.
Araldite®
LY 1134 200 - 500 at 40°C 286 - 323 ~ 20 Epoxy terminated, Bisphenol A epoxy / CTBN resin adduct.
3-3 Epoxy functionalized
Product designation Viscosity Epoxy equivalent
weight
Characteristics / comments
Conditions 25°C
Unit mPa.s g/Eq
Araldite®
DY 3601 42 - 52 385 - 405 Low viscosity, di functional polypropylene glycol-based epoxy resin. Enhances flexibility of epoxy
systems.
Araldite®
DY-L 160 - 240 608 - 800 Low viscosity, tri-functional polypropylene glycol-based epoxy resin. Enhances flexibility of epoxy
systems.
Continued on page 19
3-2 Phenol functionalized
Phenol functionalized adducts to increase toughness and flexibility in hot curing (> 100°C) thermoset formulations. Typical usage in adhesive and composite
applications.
Product designation Viscosity Hydroxy
equivalent weight
Characteristics / comments
Conditions 25°C
Unit Pa.s g/Eq
Araldite®
DY 1186 5.6 - 8.4 500 - 700 Low viscosity, phenol terminated polyether adduct.
Flexibilizer XB 3333 400 - 1 280 at 40°C 833 - 1 000 Phenol terminated polyurethane adduct. Viscous liquid. Good improvement of impact resistance,
especially during high speed sollicitation and when combined with CTBN based tougheners
(synergistic effect). Improves adhesion on metals, especially at sub-zero temperatures.
Flexibilizer DY 965 440 - 1 280 at 40°C 869 - 1 000 Phenol terminated polyurethane adduct. Viscous liquid. Outstanding improvement of impact
resistance, especially during high speed sollicitation and when combined with CTBN based
tougheners (synergistic effect). Improves adhesion on metals, especially at sub-zero temperatures,
down to -40°C.
19. Continued
Product designation Viscosity Epoxy equivalent
weight
Characteristics / comments
Conditions 25°C
Unit mPa.s g/Eq
Araldite®
PY 4122 700 - 1 400 330 - 365 Low viscosity, internally flexibilized Bisphenol-A type epoxy resin. Generally used in adhesives and
sealants requiring flexibility and toughness: also used as a modifier in solventless and high solids
coatings requiring toughness, adhesion, corrosion and abrasion resistance.
Araldite®
LY 3508 11 000 - 20 000 191 - 206 Liquid toughened epoxy resin. Similar viscosity as standard liquid Bisphenol-A based epoxy resins.
Unique multi-phase toughening technology. Provides high toughness with minor effect on glass
transition temperature. Suggested use in adhesives and composite formulations.
Tactix®
695-1 1 500 - 5 500 at 70°C 335 - 410 Single phase in-situ toughened epoxy resin. Contains proprietary blocked catalyst irreversibly
deblocked at 80°C or above. Can be used alone or as an additive to other resin systems to increase
toughness. Outstanding fracture toughness along with thermal and mechanical properties of standard
epoxy resins. Suggested for highly damage-tolerant composites or high peel strength adhesive
applications. Aero grade.
3-4 Amine functionalized
Amine functionalized, used in epoxy formulations to provide high elongation to adhesive and composite materials.
Product designation Viscosity H+ active
equivalent weight
Gel time Characteristics / comments
Conditions 25°C Araldite®
GY 250 (100g, 23°C)
Unit mPa.s g/Eq min
Aradur®
15-1 100 - 300 140 ~ 18 Polyamine. Suitable for flexibilizing and hydrophobizing adhesives and
mastics.
Aradur®
3275 200 - 300 250 ~ 85 Formulated polyetherpolyamine giving high level of flexibility. Elongation
110% at 23 °C and up to 50% down to -10 °C.
Aradur®
70 16 000 - 27 000 ~ 900 300 - 500 Polyether urethane amine. Hardener giving very high flexibility. ~ 350%
elongation at break at 23 °C; > 250% at -10 °C.
3-5 Miscellaneous
Product designation Viscosity Epoxy equivalent
weight
Characteristics / comments
Conditions 25°C
Unit mPa.s g/Eq
Araldite®
DY 1158 < 20 450 - 550 Low viscosity epoxy silane with unique substituents. Suitable as adhesion promoter and flexibilizer in
epoxy formulations. Typical usage in high temperature epoxy adhesives.
Araldite®
DY 91158 50 - 150 260 - 290 Modified version of Araldite®
DY1158 with Bisphenol-A based epoxy resin.
Matrimid®
5218 NA NA Soluble thermoplastic polyimide powder. Very high glass transition temperature.
Excellent high temperature properties for use in structural composites and adhesives. Powder form,
fully imidized polymer. Excellent adhesion on various substrates, excellent thermal performance,
soluble in a variety of common solvents (i.e. CH2Cl2, CHCl3, THF, DMAC, DMF, NMP).
Matrimid®
9725 NA NA Micropulverized version of Matrimid®
5218.
19
20. Imides and benzoxazines
4-1 Imides based resins
4-1-1 Bismaleimides
Thermosetting resins suitable for long term thermal resistance above 200°C.
Product designation Viscosity Double
bond
content
Melting
point
Characteristics / comments
Conditions 25°C
Unit mPa.s %* °C
Matrimid®
5292 A solid > 85 153 - 170 4,4 Bismaleimidodiphenylmethane. Outstanding heat performance (Tg range 250-300 °C) and excellent
mechanical properties at high temperature. Can be used in advanced composite structures and
high performance structural adhesives. Can be used with Matrimid® 5292 B to optimize processing,
toughness and performance.
Matrimid®
5292 B 12 000 - 20 000 > 90 NA O,O’- Diallyl bisphenol A. For use with Matrimid®
5292 A to optimize toughness, processing and
performance.
Matrimid®
2292 < 100 Low viscosity resin for use as a reactive diluent for epoxy, bismaleimide or polyimides. Provides
excellent mechanical properties at ambient or elevated temperatures.
*% of theoretical
4-1-2 Polyimides
Thermosetting and thermopastic resins for long term thermal resistance above 200°C.
Product designation Viscosity Gel time Solid
content
Characteristics / comments
Conditions 25°C 170ºC
Unit mPa.s sec wt. %
Kerimid®
701 A N-70 1 300 - 3 600 250 - 450 69 - 71 Non-MDA based polyimide prepolymer in solution in MEK. Suitable for use in the manufacture of
high performance composites. Provides glass transition temperatures above 250 °C with excellent
thermostability. Low coefficient of thermal expansion (CTE).
Kerimid®
701-1 B 20 - 80 NA 44 - 46 Halogenated flame retardant additive for use in conjunction with Kerimid®
701 A to achieve UL 94 V-O
flammability performance.
Kerimid®
701 C 0 - 60 NA 35 - 37 Halogenated flame retardant additive for use in conjunction with Kerimid®
701 A to achieve superior
thermal performance as well as UL 94 V-1 flammability performance. Lower halogene content than
Kerimid®
701-1 B.
Kerimid®
8292 NPM
60-1
100 - 600 275 - 400 59 - 64 Non-MDA polyimide pre-polymer in solution. Suggested for high temperature composites application
such as laminates for printed circuit boards. Supplied at 60% non-volatiles in methyl ethyl ketone and
propylene glycol monomethyl ether.
Kerimid®
8292 N-75 2 000 - 6 000 400 - 550 74 - 76 Non-MDA polyimide pre-polymer in solution. Suggested for high temperature composites application
such as laminates for printed circuit boards. Supplied at 75% non-volatiles in methyl ethyl ketone.
Matrimid®
5218 NA NA 100 Soluble and fully imidized thermoplastic polyimide powder. Very high glass transition temperature
(> 300 °C). Excellent high temperature properties for use in structural composites and adhesives.
Excellent adhesion on various substrates, excellent thermal performance, soluble in a variety of
common solvents (i.e. CH2Cl2, CHCl3, THF, DMAC, DMF, NMP).
Matrimid®
9725 NA NA 100 Micropulverized version of Matrimid®
5218.
21. 4-1-3 Polyamide-imides
Thermosetting resins suitable for long term thermal resistance above 200°C.
Product designation Viscosity Solid content Characteristics / comments
Conditions 25°C
Unit mPa.s wt. %
Rhodeftal®
210 2 500 - 4 000 27 - 29 Solution in N-Ethylpyrrolidone (NEP). Binder for thermostable paints, lubricants, adhesives,
impregnation, varnish. Heat class 220-250 °C, good dielectric rigidity and flexibility, good chemical
properties, outstanding adhesion at elevated temperature on many substrates. Compatible with epoxy
resin to reach very good flexibility.
4-2 Benzoxazines
4-2-1 Benzoxazine resins
Resins providing phenolic-like matrices through addition reaction. No gas release and near-zero shrinkage on curing.
Product designation Viscosity Melting
point
Gel time1
Characteristics / comments
Conditions 25°C 220°C
Unit mPa.s °C sec
Araldite®
MT 35600 50 - 500
at 125°C
60 - 80 250 - 550 Bisphenol A based benzoxazine. Di-functional thermoset resin. Can be homopolymerized or co-reacted
with epoxy or phenolic resins to produce polymers with extremely good thermal and mechanical properties.
Proposed for advanced composites, structural adhesives, laminates for printed wiring boards, high
performance coatings, encapsulating and molding compounds. Available in solvent.
Araldite®
MT 35700 1 000 - 7 000
at 100°C
60 - 80 200 - 450 Bisphenol F based benzoxazine. Di-functional thermoset resin. Can be homopolymerized or co-reacted
with epoxy or phenolic resins to produce polymers with extremely good thermal and mechanical properties.
Available in solvent (75% in MEK).
Araldite®
MT 35710 FST 20 - 500
at 100°C
n.a. 150 - 600 Benzoxazine resin designed for transportation interior or other composite applications where
low flammability is needed. This product has lower toxicity, improved mechanical performance and storage
stability compared to traditional phenolic resin. It has good solubility in ketone or other solvents. Compatible
processes are pre-impregnation, film infusion and RTM.
Araldite®
MT 35910 100 - 1 000
at 100°C
n.a. 120 - 600
at 200°C
Thiodiphenol based benzoxazine resin that is partially modified by epoxy. Ready to use or can be further
formulated. The resin has good processability, and shows very good thermal and mechanical performances
after cured.
XU 8282-1 100 - 3 000 n.a. 230 - 290
at 171°C
Ready to use, single component based on patented phenolphthalein benzoxazine resin. Supplied as a
solution in methyl ethyl ketone and n-butanol (70% solid). For manufacturing halogen free high temperature
resistant electrical laminates and prepregs. Very good flame retardant properties.
Araldite®
LZ 8278 N 70 /
Araldite®
HZ 8279 Z 40
50 - 900 /
5 - 500
n.a. 150 - 500 2 components formulated benzoxazine system for manufacturing of flame resistant, halogen free and
high temperature resistant electrical laminates and dry prepregs. Araldite®
LZ 8278 N 70 (component A)
is supplied as a solution in methyl ethyl ketone (70% solid) and Araldite®
HZ 8279 Z 40 (component B) is
supplied as a solution in methyl ethyl ketone and cyclohexanone (40% solid).
1
Measured on solid film with hot plate
4-2-2 Benzoxazine accelerators
Catalyst to improve reactivity for both benzoxazine homopolymerization and benzoxazine/epoxy combination.
Product designation Melting point Acid value Characteristics / comments
Conditions
Unit °C mgKOH/g
Accelerator DT 300 154 - 156 NA Diphenol based.
Accelerator DT 310 127 - 134 600 - 650 Diacid based.
Accelerator DY 9577 25 - 31 n.a. Boron trichloride amine complex based.
Aradur®
3123 180 - 250 n.a. Imidazole based.
21
22. >
With innovation
Every day, all over the world, our Technical
Competence centers engage in intensive research
and development focusing on one goal : to deliver
innovative solutions by working hand-in-hand with
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We track both new market expectations and changing
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We market a unique product portfolio and a broad
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