Search Results

Training / Education

Systems Engineering for Prognostics and Health Management (PHM) Systems

Most complex systems are moving toward a “smart” solution, with automated methods for identifying and diagnosing problems. This course will explore how efficient system scan be designed in an effective manner to ensure that they meet performance requirements. Because predictive maintenance is important to the aerospace industry, this course will address systems engineering (SE), review prognostic health management (PHM), and explain how you can utilize them to obtain a better system. Additionally, it will address requirements management; model-based design; and verification and validation.

Training / Education

Metal Forming

This course covers metal forming and related manufacturing processes, emphasizing practical applications. From forged or P/M connecting rods to tailor-welded blank forming, metal parts are integral to the automotive industry. As a high value adding category of manufacturing, metal forming is increasingly important to the core competency of automobile manufacturers and suppliers. A thorough survey of metal forming processes and metal forming mechanics will be performed, including bulk deformation, sheet-metal, and powder metallurgy operations. Design considerations are fully integrated into the course and are presented with every process.

Training / Education

Fundamentals of Prognostics and Health Management (PHM) for Aerospace Systems

2024-10-15

With the world aircraft fleets growing exponentially, the maintenance burden on airlines is also becoming overwhelming. One way to counter this is by making systems “smarter” so that they can self-diagnose themselves, help with troubleshooting, and estimate remaining useful life. Prognostics and Health Management (PHM) is the engineering discipline that forms the basis for developing such smart systems. In this course, the basic tenets of PHM will be taught with an emphasis on the practical application of PHM to aerospace systems.

Standard

Alloy Sheet and Strip, Corrosion and Heat Resistant Cobalt Base 25.5cr 20ni 4mo 2w 2(Cb+Ta)

2002-12-16

CURRENT

AMS5535

Standard

Steel, Nickel Chromium Molybdenum

1943-04-01

CURRENT

AMS6410

l. ACKNOWLEDGMENT: A vendor must mention this specification number and its last revision in all quotations and when acknowledging purchase orders. 2. FORM: Bars, billets, forgings, tubing, or as ordered.

Standard

STEEL, NITRIDING .65 Ni 1 Cr 1 Mo

1946-04-01

HISTORICAL

AMS6480

Standard

STEEL Nickel Molybdenum

1939-12-04

HISTORICAL

AMS6310

Standard

STEEL 1.8 Ni - .25 Mo (.38 - .43C) Heat Treated (105,000 TS)

1945-07-01

HISTORICAL

AMS6315B

Standard

Steel Nickel Chromium

1940-12-04

CURRENT

AMS6335

No scope available.

Standard

Steel Nickel Chromium

1940-12-01

CURRENT

AMS6332

No scope available.

Standard

Steel Nickel Chromium

1941-03-01

CURRENT

AMS6337

No scope available.

Standard

Steel Corrosion and Heat Resistant 19cr 12ni 3.2w 1cb 0.15n

2002-12-16

CURRENT

AMS5730

Standard

Alloy, Corrosion and Heat Resistant 37ni 20co 18cr 3mo 2.9ti

1949-01-01

CURRENT

AMS5760

Parts, such as bolts, turbine wheels, discs, buckets, and blades, for high strength and oxidation resistance up to 1500 F when suitably heat treated.

Standard

Vehicle Electronic Identification

2002-07-23

CURRENT

J1724_200207

Standard

Nickel Alloy, Corrosion and Heat Resistant, Sheet, Strip, and Plate 72Ni - 15.5Cr - 0.95 (Cb + Ta) - 2.5Ti - 0.70Al - 7.0Fe Consumable Electrode or Vacuum Induction Melted Solution Heat Treated, Precipitation Hardenable

2000-05-01

HISTORICAL

MAM5598B

This specification covers a corrosion and heat resistant nickel alloy in the form of sheet, strip, and plate procured in SI (metric) units.

Standard

NICKEL ALLOY, CORROSION AND HEAT RESISTANT, SHEET, STRIP, AND PLATE 72Ni - 15.5Cr - 0.95(Cb + Ta) - 2.5Ti - 0.70Al - 7.0Fe Consumable Electrode or Vacuum Induction Melted Solution Heat Treated, Precipitation Hardenable

1993-07-01

HISTORICAL

MAM5598A

This specification covers a corrosion and heat resistant nickel alloy in the form of sheet, strip, and plate procured in SI (metric) units.

Standard

ALLOY SHEET, STRIP, AND PLATE, CORROSION AND HEAT RESISTANT 72Ni - 15.5Cr - 0.95(Cb + Ta) - 2.5Ti - 0.70Al - 7.0Fe Consumable Electrode or Vacuum Induction Melted Solution Heat Treated, Precipitation Hardenable

1991-10-01

HISTORICAL

MAM5598

This specification covers a corrosion and heat resistant nickel alloy in the form of sheet, strip, and plate procured in SI (metric) units. AMS 5598 is the equivalent, specified in inch/pound units, of this MAM.

Standard

BITE GLOSSARY

1986-12-18

CURRENT

ARINC612

The purpose of this standard is to provide a source of definitions of terms and acronyms commonly used in the air transport maintenance community for test and evaluation with an emphasis on terms applicable to BITE.

Standard

OBSOLESCENCE MANAGEMENT STRATEGIES FOR COMMERCIAL AIRCRAFT

2019-05-14

CURRENT

ARINC662-1

The purpose of this document is to establish guidelines that should be observed during initial design, production, and maintenance of aircraft components, and to present short-term and long-term strategies to minimize the costs and impacts associated with decreasing availability of components.

Standard

FIBER OPTIC TRAINING REQUIREMENTS

2019-01-10

CURRENT

ARINC807-4

This document is based upon the SAE ARP5602 document, A Guideline for Aerospace Platform Fiber Optic Training and Awareness Education. ARINC Report 807: Fiber Optic Training Requirements is a subset of the SAE ARP5602 document designed to meet the requirements of the commercial air transport industry. Certification to the SAE ARP5602 document fulfills the requirements of ARINC Report 807. This document defines recommended general practices for training requirements of aerospace fiber optic systems. It is the intention of this document to outline proven training practices and general standards of workmanship for technicians engaged in aerospace fiber optic manufacturing, installation, maintenance, and repair for the air transport industry. It is also recommended that management and purchasing personnel receive fundamental training to familiarize themselves with the requirements of aerospace fiber optics.