Add to ORKGThis work is concerned with the approximate solution of the problem generated by the integral of first kind relating the shear relaxation modulus of entangled, linear and flexible homopolymer blends and the molecular weight distribution (MWD). Procedures are proposed to estimate the density distribution function (DDF) of the MWD from numerical solutions of the theoretical model composed by the double reptation mixing rule and a law for the relaxation time of chains in polydisperse matrixes. One procedure uses the expansion of the DDF through orthogonal polynomial functions. This expansion is formulated for two cases: a) Hermite polynomials associated with the normal-DDF and b) Laguerre polynomials associated with the gamma-DDF. The other pr...
Rheological investigation of polyethylene (PE) blends with a significant amount (up to 50 wt. %) of ...
The melt theology of ultrahigh molecular weight polymeric materials characterized by a narrow molecu...
We develop a method for efficient prediction of linear and nonlinear rheology of polydisperse polyme...
This article describes a method for determining the polydispersity index Ip2=Mz/Mw of the molecular...
This work analyzes the relationship between the shear relaxation modulus of entangled, linear and fl...
In a companion paper [Macromolecules 35 (2002) 2689], we have addressed the direct problem of predic...
cited By 25International audienceThe method presented in this paper allows to calculate the molecula...
The ability of reptation theories to quantitatively predict the linear viscoelastic response of line...
While there has been much success in modeling the linear and nonlinear rheology of monodisperse enta...
Based on a recently introduced generalized mixing rule, which contains the results of the reptation ...
The focus of this work is on the relaxation behavior of linear flexible polymers in their melt state...
A molecular model is presented which allows the calculation of the stress relaxation function G for ...
A molecular model is presented which allows the calculation of the stress relaxation function G for ...
Linear polydimethylsiloxanes of relatively narrow molecular weight distribution (MWD) were synthesiz...
A molecular model is presented which allows the calculation of the stress relaxation function G for ...
Rheological investigation of polyethylene (PE) blends with a significant amount (up to 50 wt. %) of ...
The melt theology of ultrahigh molecular weight polymeric materials characterized by a narrow molecu...
We develop a method for efficient prediction of linear and nonlinear rheology of polydisperse polyme...
This article describes a method for determining the polydispersity index Ip2=Mz/Mw of the molecular...
This work analyzes the relationship between the shear relaxation modulus of entangled, linear and fl...
In a companion paper [Macromolecules 35 (2002) 2689], we have addressed the direct problem of predic...
cited By 25International audienceThe method presented in this paper allows to calculate the molecula...
The ability of reptation theories to quantitatively predict the linear viscoelastic response of line...
While there has been much success in modeling the linear and nonlinear rheology of monodisperse enta...
Based on a recently introduced generalized mixing rule, which contains the results of the reptation ...
The focus of this work is on the relaxation behavior of linear flexible polymers in their melt state...
A molecular model is presented which allows the calculation of the stress relaxation function G for ...
A molecular model is presented which allows the calculation of the stress relaxation function G for ...
Linear polydimethylsiloxanes of relatively narrow molecular weight distribution (MWD) were synthesiz...
A molecular model is presented which allows the calculation of the stress relaxation function G for ...
Rheological investigation of polyethylene (PE) blends with a significant amount (up to 50 wt. %) of ...
The melt theology of ultrahigh molecular weight polymeric materials characterized by a narrow molecu...
We develop a method for efficient prediction of linear and nonlinear rheology of polydisperse polyme...