Previous work has presented a study of the mechanical properties of denture base resins reinforced with a new type of high performance fibre. It is now shown that the substantial improvements demonstrated in those composites remain largely unaffected by a watery environment, anatomical notches, moulding pressure and other factors of denture construction. The understanding of the reinforced resins is here complemented with a detailed study of the interface strength, taking into account the various couplings occurring within the system.link_to_subscribed_fulltex
Acrylic resin is widely used as a denture base material, but the upper complete denture fails often ...
The aim of this study was to investigate (i) the effect of direct or indirect polymerisation of adhe...
Due to gradual resorption of the edentulous ridge bone, removable prostheses often require denture b...
This paper reports on the effect of reinforcing dental resins with continuous, longitudinally orient...
Previous work has established the feasibility of producing acrylic denture bases reinforced with lay...
Clinical literature details the causes for deformation and failure of acrylic resin complete denture...
Objective This study evaluated the flexural strengths of reinforced denture base resins subjected to...
Reinforcement of acrylic denture base resin with high-performance polyethylene fiber in various form...
The results reported in this paper are part of a continuing study of the reinforcement of acrylic de...
This study was performed to determine whether some flexural properties of a denture base resin mater...
Poly(methyl methacrylate) (PMMA) is used for removable prostheses. However, PMMA denture base resin ...
Incorporation of 5 layers of woven, high-modulus polyethylene fiber into acrylic resin denture bases...
Knowledge about the influence of fillers in denture base resin is vague. This systematic review aime...
The development of fibre-reinforced composite (FRC) technology has led to substantial improvement in...
Effect of reinforcement using stainless steel mesh, glass fibers, and polyethylene on the impact str...
Acrylic resin is widely used as a denture base material, but the upper complete denture fails often ...
The aim of this study was to investigate (i) the effect of direct or indirect polymerisation of adhe...
Due to gradual resorption of the edentulous ridge bone, removable prostheses often require denture b...
This paper reports on the effect of reinforcing dental resins with continuous, longitudinally orient...
Previous work has established the feasibility of producing acrylic denture bases reinforced with lay...
Clinical literature details the causes for deformation and failure of acrylic resin complete denture...
Objective This study evaluated the flexural strengths of reinforced denture base resins subjected to...
Reinforcement of acrylic denture base resin with high-performance polyethylene fiber in various form...
The results reported in this paper are part of a continuing study of the reinforcement of acrylic de...
This study was performed to determine whether some flexural properties of a denture base resin mater...
Poly(methyl methacrylate) (PMMA) is used for removable prostheses. However, PMMA denture base resin ...
Incorporation of 5 layers of woven, high-modulus polyethylene fiber into acrylic resin denture bases...
Knowledge about the influence of fillers in denture base resin is vague. This systematic review aime...
The development of fibre-reinforced composite (FRC) technology has led to substantial improvement in...
Effect of reinforcement using stainless steel mesh, glass fibers, and polyethylene on the impact str...
Acrylic resin is widely used as a denture base material, but the upper complete denture fails often ...
The aim of this study was to investigate (i) the effect of direct or indirect polymerisation of adhe...
Due to gradual resorption of the edentulous ridge bone, removable prostheses often require denture b...