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Training circular (TC) 3-04.7 outlines requirements concerning aviation maintenance structure, organizations, and functions. The intended audiences are aviation maintenance commanders, leaders, officers, technicians, noncommissioned officers (NCOs), and aircraft repair and maintenance personnel. TC 3-04.7 applies to all active, Army Army National Guard (ARNG)/Army National Guard of the United States (ARNGUS), United States Army Reserve (USAR), civilian, and contract maintenance personnel unless otherwise stated. Commanders must consider the contents of this document and the particular circumstances in which they find themselves (national military objectives, available forces, threat capabilities, and rules of engagements) when planning maintenance operations. The term 'aircraft' refers to all Army aircraft types (rotary-wing, fixed-wing, and unmanned aircraft systems [UAS]), unless a specific aircraft has been identified in this publication.
Training Circular TC 3-04.7 (FM 3-04.500) Army Aviation Maintenance 2 February 2010 Training circular (TC) 3-04.7 outlines requirements concerning aviation maintenance structure, organizations, and functions. The intended audiences are aviation maintenance commanders, leaders, officers, technicians, noncommissioned officers (NCOs), and aircraft repair and maintenance personnel. TC 3-04.7 applies to all active, Army Army National Guard (ARNG)/Army National Guard of the United States (ARNGUS), United States Army Reserve (USAR), civilian, and contract maintenance personnel unless otherwise stated. Commanders must consider the contents of this document and the particular circumstances in which they find themselves (national military objectives, available forces, threat capabilities, and rules of engagements) when planning maintenance operations.
Training circular (TC) 3-04.7 outlines requirements concerning aviation maintenance structure, organizations, and functions. The intended audiences are aviation maintenance commanders, leaders, officers, technicians, noncommissioned officers (NCOs), and aircraft repair and maintenance personnel.
This United States Army manual, Army Techniques Publication ATP 3-04.7 Army Aviation Maintenance October 2020, provides techniques concerning aviation maintenance operations from aviation brigade to platoon level. The primary focus of this ATP involves performing maintenance, across the aviation brigade, within an aviation maintenance company (AMC) and aviation support company (ASC). It also includes information for sustainment-enabling organizations at echelons above brigade across the Army sustainment enterprise. The principle audience for ATP 3-04.7 are commanders, maintenance leaders, officers, noncommissioned officers (NCOs), maintenance technicians, and maintenance trainers. The term 'aircraft' refers to all Army aircraft types (rotary wing [RW] aircraft, fixed-wing [FW] aircraft, and unmanned aircraft systems [UAS]); unless a specific aircraft has been identified in this publication. The terms combat aviation brigade (CAB) and AMC align with the Army's force design for Army Aviation. Terms and definitions for which this publication is the proponent publication are boldfaced in the text. For other definitions shown in the text, the term is italicized, and the number of the proponent publication follows the definition. ATP 3-04.7 applies to all Active Army, Army National Guard/Army National Guard of the United States, United States Army Reserve, civilian, and contract maintenance personnel. Commanders must consider the contents of this document and the specific circumstances in which they find themselves (national military objectives, available forces, threat capabilities, and rules of engagements) when planning maintenance operations.
U.S. Army aviation expanded dramatically in both size and breadth of activities after its inception in 1942, but much of its post-World War II history, particularly after the establishment of the Air Force as an independent service by the national Security Act of 1947, has been relatively neglected. Despite a certain amount of jockeying for position by both services, particularly in the early years after their separation, the Army was able to carve out a clear transport and operational combat role for its own air arm. "A History of Army Aviation - 1950-1962" examines the development of the Army's air wing, especially for air support of ground troops, both in terms of organization and in relation to the ongoing friction with the Air Force. After describing the rapid expansion of purely Army air power after 1950 and the accompanying expansion of aviation training, the book delves into the reorganization of aviation activities within a Directorate of Army Aviation. It also provides a valuable account of the successful development of aircraft armament, perhaps the most significant advance of this period. In particular, intensive experimentation at the Army Aviation School led to several practical weapons systems and helped to prove that weapons could be fired from rotary aircraft. This arming of the helicopter was to have a profound effect on both Army organization and combat doctrine, culminating in official approval of the armed helicopter by the Department of the Army in 1960. "A History of Army Aviation - 1950-1962" also explores the development of new aircraft between 1955 and 1962, including the UH-1 medical evacuation, transport, and gunship helicopter and the HC-1 cargo copter. In addition, the book discusses the Berlin Crisis of 1961 as an impetus for immediate and unexpected expansion of army aviation, quickly followed by the beginnings of intervention in Vietnam by the end of 1962.
This book looks at several troop categories based on primary function and analyzes the ratio between these categories to develop a general historical ratio. This ratio is called the Tooth-to-Tail Ratio. McGrath's study finds that this ratio, among types of deployed US forces, has steadily declined since World War II, just as the nature of warfare itself has changed. At the same time, the percentage of deployed forces devoted to logistics functions and to base and life support functions have increased, especially with the advent of the large-scale of use of civilian contractors. This work provides a unique analysis of the size and composition of military forces as found in historical patterns. Extensively illustrated with charts, diagrams, and tables. (Originally published by the Combat Studies Institute Press)
Army Techniques Publication ATP 3-04.7 Army Aviation Maintenance SEPTEMBER 2017 ATP 3-04.7 shapes the way Army aviation maintenance is to be conducted. Aviation maintenance is very complex and unlike any other type of combat service support (CSS) organization. Aviation maintainers must be able to support the aviation force as it is designed to fight, not as it is organized for command and control. To accomplish this, aviation units must be modular in design. For aviation maintenance applications, modularity is intended to facilitate, at the tactical level, the task organization of logistics to support a designated aviation task force and to effectively implement "fix forward" aviation maintenance doctrine. Aviation maintenance support has never been more critical than in today's operating environment, where personnel and aircraft remain in high demand due to high operational tempo (OPTEMPO). Today's technically complex aircraft demand equally experienced aircraft maintainers and maintenance managers. The ability of an aviation unit to perform its wartime mission is numerically represented by its aircraft operational readiness rates. Higher operational readiness rates are a direct result of effective maintenance and logistics management by all aviation maintenance commanders/leaders, officers, technicians, and noncommissioned officers in charge (NCOICs). Maintenance is critical for all aircraft weapon platforms, systems, subsystems, and aviation ground support equipment. The failure of an operating aircraft system or subsystem, resulting from improper maintenance procedures, can have catastrophic and deadly consequences to personnel and equipment. Aviation maintainers must adhere to the latest applicable aircraft technical manuals (TMs) and references when conducting maintenance on their assigned aircraft. Each aviation maintenance company (AMC) and aviation support company (ASC) now possesses the capability to conduct split-based operations within a single theater of operations. Each AMC is responsible for performing field maintenance on its assigned/attached aircraft. ASCs assigned to aviation support battalions (ASBs) provide field maintenance support by conducting intermediate aviation maintenance according to the maintenance allocation chart (MAC). Aviation maintenance is training. Commander and leader must balance mission requirements while continuously assessing a unit's maintenance posture. The critical link between maintenance and readiness cannot be emphasized enough. This ATP ties regulatory guidance to practice, and serves as the primary reference for effectively managing aviation maintenance.