Add to ORKGA method of producing a multiphase polymer is disclosed whereby the phases have the same chemical structure but have different morphological states and thus different properties. This is achieved by forming a mixture of precursors of the polymer, at least one of the precursors having a reaction rate higher than the other precursor or precursors in the mixture. The precursor having the highest reaction rate is then converted to obtain a composite of a polymer and the precursors that are not polymerized. This mixture might also be formed by mixing a soluble polymer with its precursor. The polymer/precursor composite is processed to obtain the structure having different morphological states by either choosing the reaction conditions to convert...
In the last decades icreasing efforts are put on creating materials with new and improved properties...
This chapter discusses the morphology development of immiscible binary polymer blends. It first desc...
New synthetic methods in polymer chemistry developed over the last twenty years and advances in mate...
A method of producing a multiphase polymer is disclosed whereby the phases have the same chemical st...
The book offers an in-depth review of the materials design and manufacturing processes employed in t...
Composites are known for their unique blend of modulus, strength, and toughness. This study focuses ...
A method for the production of a multiple phase composite material, wherein the composite material i...
The present chapter discusses crucial aspects of the phase morphologies developed in polymer-based ...
A method of forming polymer composites includes mixing a transition metal oxide precursor including ...
The polymerisation, morphology and mechanical properties of a two-component in-situ reacting system ...
The field of polymer-based materials continues its enormous growth covering a wide range of products...
ABSTRACT: Immiscible polymers are often blended together in the melt state to obtain a material wit...
In a composite material (6), comprising a fibrous reinforcement (3), and a polymer matrix (14), wher...
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN018988 / BLDSC - British Library D...
Phase separation of a ternary mixture composed of poly(ethyl acrylate) and poly(ethyl methacrylate...
In the last decades icreasing efforts are put on creating materials with new and improved properties...
This chapter discusses the morphology development of immiscible binary polymer blends. It first desc...
New synthetic methods in polymer chemistry developed over the last twenty years and advances in mate...
A method of producing a multiphase polymer is disclosed whereby the phases have the same chemical st...
The book offers an in-depth review of the materials design and manufacturing processes employed in t...
Composites are known for their unique blend of modulus, strength, and toughness. This study focuses ...
A method for the production of a multiple phase composite material, wherein the composite material i...
The present chapter discusses crucial aspects of the phase morphologies developed in polymer-based ...
A method of forming polymer composites includes mixing a transition metal oxide precursor including ...
The polymerisation, morphology and mechanical properties of a two-component in-situ reacting system ...
The field of polymer-based materials continues its enormous growth covering a wide range of products...
ABSTRACT: Immiscible polymers are often blended together in the melt state to obtain a material wit...
In a composite material (6), comprising a fibrous reinforcement (3), and a polymer matrix (14), wher...
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN018988 / BLDSC - British Library D...
Phase separation of a ternary mixture composed of poly(ethyl acrylate) and poly(ethyl methacrylate...
In the last decades icreasing efforts are put on creating materials with new and improved properties...
This chapter discusses the morphology development of immiscible binary polymer blends. It first desc...
New synthetic methods in polymer chemistry developed over the last twenty years and advances in mate...