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This SAE Standard establishes terminology and the content of commercial literature specifications for self-propelled crawler and wheeled material handlers, pedestal mounted material handlers and their equipment as defined in 3.1. Illustrations used here are not intended to include all existing commercial machines or to be exactly descriptive of any particular machine. They have been provided to describe the principles to be used in applying this document. (Material handlers share many design characteristics with hydraulic excavators and log loaders; primarily 360 degree continuous rotation of the upperstructure relative to the undercarriage or mounting. They differ in their operating application. Material handlers are used for the handling of scrap material and normally utilize grapples or magnets. Hydraulic excavators are used for the excavation of earth, gravel and other loose material utilizing a bucket. Log loaders are used for the handling of logs and trees and normally utilize grapples.) This document has been totally revised to bring it into alignment with the latest SAE format and update the references. Base machine and front operating dimensions have been added. The number of mountings has been reduced to reflect the three most common mountings.
This SAE Standard includes the names of major components andparts peculiar to this type of machine. Illustrations used here arenot intended to include all existing commercial machines or to beexactly descriptive of any particular machine. They have beenprovided to describe the principles to be used in applying thisdocument.The purpose of this document is to establish a uniform method ofproviding nomenclature for material handlers.
This SAE Standard establishes terminology and the content of commercial literature specifications for self-propelled crawler and wheeled material handlers, pedestal mounted material handlers and their equipment as defined in 3.1. Illustrations used here are not intended to include all existing commercial machines or to be exactly descriptive of any particular machine. They have been provided to describe the principles to be used in applying this document. (Material handlers share many design characteristics with hydraulic excavators and log loaders; primarily 360 degree continuous rotation of the upperstructure relative to the undercarriage or mounting. They differ in their operating application. Material handlers are used for the handling of scrap material and normally utilize grapples or magnets. Hydraulic excavators are used for the excavation of earth, gravel and other loose material utilizing a bucket. Log loaders are used for the handling of logs and trees and normally utilize grapples.) This document has been totally revised to bring it into alignment with the latest SAE format and update the references. Base machine and front operating dimensions have been added. The number of mountings has been reduced to reflect the three most common mountings.
Sponsored jointly by the American Society of Mechanical Engineers and International Material Management Society, this single source reference is designed to meet today's need for updated technical information on planning, installing and operating materials handling systems. It not only classifies and describes the standard types of materials handling equipment, but also analyzes the engineering specifications and compares the operating capabilities of each type. Over one hundred professionals in various areas of materials handling present efficient methods, procedures and systems that have significantly reduced both manufacturing and distribution costs.
This manual enunciates sound, basic principles of good warehousing and translates principles into standard methods, procedures, and techniques which have proved by long experience to be the most efficient and effective in the storage and handling of military supplies.
This book which describes the world of metallurgical processing is influenced by a variety of factors not directly metallurgical. One major factor in all applications is materials handling. In Pyro-metallurgical processes, the processes are interconnected by materials handling systems which often require a major percentage of plant cost. The systems include sampling, storage, weighing, feeding and transporting of materials which all actively affect the performance of the metallurgical processes. Increasing productivity and improvements to plant environment demand that materials handling be improved. At the same time, sophisticated sampling and control systems are required to optimize the recipes and allow controlled reactions. By using handling technologies that accommodate both the process and the environment, sustainable improvements can be made.