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INDONESIA
Jurnal Teknologi Bahan dan Barang Teknik
Published by Kementerian Perindustrian Republik Indonesia
ISSN : -     EISSN : -     DOI : -
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Articles 10 Documents
 1 
PEMODELAN DAN SIMULASI DISTRIBUSI MUATAN PEMBAWA IONIK PADA ZAT PADAT ANISOTROPIK FIBER DUA DIMENSI Rahardi, Susanto Sigit
ISSN 2089-4767
Publisher : Balai Besar Bahan dan Barang Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (21.569 KB)

Abstract

One of important aspects in material engineering is the effect of morphology on the properties of material. In lithium-ion batteries technology, morphology of active material at electrode influences the propagation of ionic charge carrier inside the batteries.  In this paper, we studied the properties of a solid state material consisting of an anisotropic fiber granules where ions propagate. The propagation mechanism is difusion process and affected by an external electric field on the material. Mathematical modelling and simulation was made to describe the influence of the randomness of anisotropic fiber granules on the charge distribution. The result of simulation indicates that the turtuosity decreases ionic migration.  
PEMODELAN DAN SIMULASI DISTRIBUSI MUATAN PEMBAWA IONIK PADA ZAT PADAT ANISOTROPIK FIBER DUA DIMENSI Rahardi, Susanto Sigit
ISSN 2089-4767
Publisher : Balai Besar Bahan dan Barang Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (21.569 KB)

Abstract

 One of important aspects in material engineering is the effect of morphology on the properties of material. In lithium-ion batteries technology, morphology of active material at electrode influences the propagation of ionic charge carrier inside the batteries.  In this paper, we studied the properties of a solid state material consisting of an anisotropic fiber granules where ions propagate. The propagation mechanism is difusion process and affected by an external electric field on the material. Mathematical modelling and simulation was made to describe the influence of the randomness of anisotropic fiber granules on the charge distribution. The result of simulation indicates that the turtuosity decreases ionic migration.  
PEMODELAN DAN SIMULASI DISTRIBUSI MUATAN PEMBAWA IONIK PADA ZAT PADAT ANISOTROPIK FIBER DUA DIMENSI Rahardi, Susanto
ISSN 2089-4767
Publisher : Balai Besar Bahan dan Barang Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (21.569 KB)

Abstract

 One of important aspects in material engineering is the effect of morphology on the properties of material. In lithium-ion batteries technology, morphology of active material at electrode influences the propagation of ionic charge carrier inside the batteries.  In this paper, we studied the properties of a solid state material consisting of an anisotropic fiber granules where ions propagate. The propagation mechanism is difusion process and affected by an external electric field on the material. Mathematical modelling and simulation was made to describe the influence of the randomness of anisotropic fiber granules on the charge distribution. The result of simulation indicates that the turtuosity decreases ionic migration.  
PEMODELAN DAN SIMULASI DISTRIBUSI MUATAN PEMBAWA IONIK PADA ZAT PADAT ANISOTROPIK FIBER DUA DIMENSI Rahardi, Susanto
ISSN 2089-4767
Publisher : Balai Besar Bahan dan Barang Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

 One of important aspects in material engineering is the effect of morphology on the properties of material. In lithium-ion batteries technology, morphology of active material at electrode influences the propagation of ionic charge carrier inside the batteries.  In this paper, we studied the properties of a solid state material consisting of an anisotropic fiber granules where ions propagate. The propagation mechanism is difusion process and affected by an external electric field on the material. Mathematical modelling and simulation was made to describe the influence of the randomness of anisotropic fiber granules on the charge distribution. The result of simulation indicates that the turtuosity decreases ionic migration.  
PEMODELAN DAN SIMULASI DISTRIBUSI MUATAN PEMBAWA IONIK PADA ZAT PADAT ANISOTROPIK FIBER DUA DIMENSI Rahardi, Susanto
ISSN 2089-4767
Publisher : Balai Besar Bahan dan Barang Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

 One of important aspects in material engineering is the effect of morphology on the properties of material. In lithium-ion batteries technology, morphology of active material at electrode influences the propagation of ionic charge carrier inside the batteries.  In this paper, we studied the properties of a solid state material consisting of an anisotropic fiber granules where ions propagate. The propagation mechanism is difusion process and affected by an external electric field on the material. Mathematical modelling and simulation was made to describe the influence of the randomness of anisotropic fiber granules on the charge distribution. The result of simulation indicates that the turtuosity decreases ionic migration.  
PEMODELAN DAN SIMULASI DISTRIBUSI MUATAN PEMBAWA IONIK PADA ZAT PADAT ANISOTROPIK FIBER DUA DIMENSI Rahardi, Susanto
ISSN 2089-4767
Publisher : Balai Besar Bahan dan Barang Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (21.569 KB)

Abstract

 One of important aspects in material engineering is the effect of morphology on the properties of material. In lithium-ion batteries technology, morphology of active material at electrode influences the propagation of ionic charge carrier inside the batteries.  In this paper, we studied the properties of a solid state material consisting of an anisotropic fiber granules where ions propagate. The propagation mechanism is difusion process and affected by an external electric field on the material. Mathematical modelling and simulation was made to describe the influence of the randomness of anisotropic fiber granules on the charge distribution. The result of simulation indicates that the turtuosity decreases ionic migration.  
PEMODELAN DAN SIMULASI DISTRIBUSI MUATAN PEMBAWA IONIK PADA ZAT PADAT ANISOTROPIK FIBER DUA DIMENSI Rahardi, Susanto
ISSN 2089-4767
Publisher : Balai Besar Bahan dan Barang Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

 One of important aspects in material engineering is the effect of morphology on the properties of material. In lithium-ion batteries technology, morphology of active material at electrode influences the propagation of ionic charge carrier inside the batteries.  In this paper, we studied the properties of a solid state material consisting of an anisotropic fiber granules where ions propagate. The propagation mechanism is difusion process and affected by an external electric field on the material. Mathematical modelling and simulation was made to describe the influence of the randomness of anisotropic fiber granules on the charge distribution. The result of simulation indicates that the turtuosity decreases ionic migration.  
PEMODELAN DAN SIMULASI DISTRIBUSI MUATAN PEMBAWA IONIK PADA ZAT PADAT ANISOTROPIK FIBER DUA DIMENSI Rahardi, Susanto
ISSN 2089-4767
Publisher : Balai Besar Bahan dan Barang Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

 One of important aspects in material engineering is the effect of morphology on the properties of material. In lithium-ion batteries technology, morphology of active material at electrode influences the propagation of ionic charge carrier inside the batteries.  In this paper, we studied the properties of a solid state material consisting of an anisotropic fiber granules where ions propagate. The propagation mechanism is difusion process and affected by an external electric field on the material. Mathematical modelling and simulation was made to describe the influence of the randomness of anisotropic fiber granules on the charge distribution. The result of simulation indicates that the turtuosity decreases ionic migration.  
PEMODELAN DAN SIMULASI DISTRIBUSI MUATAN PEMBAWA IONIK PADA ZAT PADAT ANISOTROPIK FIBER DUA DIMENSI Rahardi, Susanto Sigit
ISSN 2089-4767
Publisher : Balai Besar Bahan dan Barang Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (21.569 KB)

Abstract

One of important aspects in material engineering is the effect of morphology on the properties of material. In lithium-ion batteries technology, morphology of active material at electrode influences the propagation of ionic charge carrier inside the batteries.  In this paper, we studied the properties of a solid state material consisting of an anisotropic fiber granules where ions propagate. The propagation mechanism is difusion process and affected by an external electric field on the material. Mathematical modelling and simulation was made to describe the influence of the randomness of anisotropic fiber granules on the charge distribution. The result of simulation indicates that the turtuosity decreases ionic migration.  
PEMODELAN DAN SIMULASI DISTRIBUSI MUATAN PEMBAWA IONIK PADA ZAT PADAT ANISOTROPIK FIBER DUA DIMENSI Rahardi, Susanto Sigit
ISSN 2089-4767
Publisher : Balai Besar Bahan dan Barang Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (21.569 KB)

Abstract

 One of important aspects in material engineering is the effect of morphology on the properties of material. In lithium-ion batteries technology, morphology of active material at electrode influences the propagation of ionic charge carrier inside the batteries.  In this paper, we studied the properties of a solid state material consisting of an anisotropic fiber granules where ions propagate. The propagation mechanism is difusion process and affected by an external electric field on the material. Mathematical modelling and simulation was made to describe the influence of the randomness of anisotropic fiber granules on the charge distribution. The result of simulation indicates that the turtuosity decreases ionic migration.  

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