omitir hasta el contenido
Three dimensional milling using an abrasive waterjet Ver este material de antemano
CerrarVer este material de antemano
Chequeando…

Three dimensional milling using an abrasive waterjet

Autor: Shijin Zhang
Editorial: ©2006.
Disertación: Thesis (Ph. D.)--University of Missouri--Rolla, 2006.
Edición/Formato:   Tesis/disertación : Tesis de maestría/doctorado : Manuscrito   Material de archivo : Inglés (eng)
Base de datos:WorldCat
Resumen:
"This dissertation focused on an investigation of metal milling using abrasive waterjet (AWJ) technology. After reviewing existing methods, a new tool named the Wobbler was tested. The test results showed that a very smooth milled surface could be achieved with this tool when it was operated with the proper parameters...However, the tests also showed that it was very difficult to accurately control the milling  Leer más
Calificación:

(todavía no calificado) 0 con reseñas - Ser el primero.

Temas
Más materiales como éste

 

Encontrar un ejemplar en la biblioteca

&AllPage.SpinnerRetrieving; Encontrando bibliotecas que tienen este material…

Detalles

Tipo de material: Tesis de maestría/doctorado, Manuscrito
Tipo de documento: Libro/Texto, Material de archivo
Todos autores / colaboradores: Shijin Zhang
Número OCLC: 166903045
Notas: Vita.
Descripción: xviii, 183 leaves : ill. ; 28 cm.
Otros títulos: 3 dimensional milling using an abrasive waterjet
Responsabilidad: by Shijin Zhang.
Más información:

Resumen:

"This dissertation focused on an investigation of metal milling using abrasive waterjet (AWJ) technology. After reviewing existing methods, a new tool named the Wobbler was tested. The test results showed that a very smooth milled surface could be achieved with this tool when it was operated with the proper parameters...However, the tests also showed that it was very difficult to accurately control the milling depth...Based on the results of these investigations, several empirical models, including the optimum abrasive flow rate (AFR) model, surface roughness prediction model and taper removal model, have been developed...As a result, a controlled cutting condition could be established, with the cut quality conforming to the aerospace industry and its customers"--Abstract, leaf iii.

Reseñas

Reseñas contribuidas por usuarios
Recuperando reseñas de GoodReads…
Recuperando reseñas de DOGObooks…

Etiquetas

Todas las etiquetas de usuarios (1)

Ver etiquetas más populares como: lista de etiquetas | nube de etiquetas

Materiales similares

Confirmar este pedido

Ya ha pedido este material. Escoja OK si desea procesar el pedido de todos modos.

Datos enlazados


<http://www.worldcat.org/oclc/166903045>
library:oclcnum"166903045"
owl:sameAs<info:oclcnum/166903045>
rdf:typeschema:Book
rdf:typej.1:Thesis
schema:about
schema:about
schema:about
schema:about
schema:about
schema:about
schema:copyrightYear"2006"
schema:creator
schema:datePublished"2006"
schema:description""This dissertation focused on an investigation of metal milling using abrasive waterjet (AWJ) technology. After reviewing existing methods, a new tool named the Wobbler was tested. The test results showed that a very smooth milled surface could be achieved with this tool when it was operated with the proper parameters...However, the tests also showed that it was very difficult to accurately control the milling depth...Based on the results of these investigations, several empirical models, including the optimum abrasive flow rate (AFR) model, surface roughness prediction model and taper removal model, have been developed...As a result, a controlled cutting condition could be established, with the cut quality conforming to the aerospace industry and its customers"--Abstract, leaf iii."
schema:exampleOfWork<http://worldcat.org/entity/work/id/113142742>
schema:inLanguage"en"
schema:name"3 dimensional milling using an abrasive waterjet"
schema:name"Three dimensional milling using an abrasive waterjet"
schema:url

Content-negotiable representations

Cerrar ventana

Inicie una sesión con WorldCat 

¿No tienes una cuenta? Puede fácilmente crear una cuenta gratuita.