2015 İKİNCİ YARIYIL EĞİTİM TAKVİMİ

Kurs No               :  ATE-03

Tarih                     : 19-21 Ekim 2015

Son Kayıt Tarihi  : 17 Eylül 2015

Yer                         : JW Marriott Hotel Ankara
MIL-STD-810G Training,  MIL-810G training, Military Standard 810G Testing Course, TEST METHOD STANDARD FOR ENVIRONMENTAL ENGINEERING CONSIDERATIONS AND LABORATORY TESTS

MIL-STD-810G Training course, MIL-810G training provides technical understanding and guidance about the objectives and application of MIL-STD-810G, environmental design and test considerations and standards.

MIL-STD-810G training covers materiel acquisition program planning and engineering direction for considering the influences that environmental stresses have on materiel throughout all phases of its service life.

TONEX’s MIL-STD-810G training does also recommends design or test specifications based on environmental processes resulting in realistic materiel designs and test methods (based on materiel system performance requirements)

MIL-STD-810G training covers all the tests, the required equipment to perform each test, along with  the methodology to apply.

MIL-810G Training Learning Objectives

Upon completion of MIL-810G training, the attendees will:

Describe the objectives of MIL-STD-810G
Explain the benefits of MIL-STD-810G standard
Describe the major MIL-STD-810G test cases
List types of vibration, shock and climatic tests
Tailor materiel item’s environmental design and test limits to the conditions
Establish laboratory test methods that replicate the effects of environments on materiel
Describe Sine and Random Vibration, classical waveform shock testing and drop testing
Explain procedures behind Shock Response Spectrum Testing
Describe and select equipment and instrumentation to perform each test
List climatic test requirements, origination, equipment required, test methodology and understanding of results

Course Content

Introduction and Course Overview

Introduction, History and Scope of MIL-STD-810G
Environmental Engineering Programs
Environmental Management
Engineering Tasks and Engineering Management
Guidance for Program Management and Environmental Tailoring
Environmental Test Procedures
Typical Format for Environmental Test Procedures
Testing methods’ Introduction and Limitations
History and Rationale
Effects of the Environment
Test Sequence and Procedures
Analysis of Results
Equipment Needed
Sinusoidal vs. random vibration testing systems
Testing specifications, standards and procedures.
Vibration and shock test fixture design, fabrication, experimental evaluation and usage
Shock measurement, shock response spectrum (SRS) and shock testing

General Program Guidelines

Roles and Guidelines
Tailoring Procedures
Program Managers
Operational Requirements Document (ORD)
System Engineering Management Plan (SEMP)
Test and Evaluation Master Plan (TEMP)
Environmental Engineering Specialists (EES)
Preparing an Environmental Engineering Management Plan (EEMP)
Developing an Environmental Test and Evaluation Master Plan (ETEMP)
Defining a Life Cycle Environmental Profile (LCEP)
Developing Operational Environment Documentation (OED)
Developing an Environmental Issues/Criteria List (EICL)
Preparing a Detailed Environmental Test Plan (DETP)
Preparing an Environmental Test Report (ETR)
Design and Test Engineers and Facility Operators
Roles of design engineers
Roles of test engineers/facility operators
Guidance for design and test engineers and test facility operators
Natural environment (field/fleet) testing
Laboratory testing
Classical sinusoidal vibration
Resonance effects
Acceleration & force measurement
Electrohydraulic shaker systems
Electrodynamic shaker systems
Sine vibration testing
Random vibration testing

MIL-STD-810G Testing Methods

Military Standard testing
Climatics
Climatic Conditions and Daily Cycles of Temperature, Solar Radiation, and Relative Humidity
Temperature testing
Temperature shock
Humidity
Altitude
Low Pressure (Altitude)
High Temperature
Low Temperature
Temperature Shock
Contamination by Fluids
Solar Radiation (Sunshine)
Rain
Humidity
Fungus
Salt Fog
Sand and Dust
Explosive Atmosphere
Immersion
Acceleration
Vibration
Acoustic Noise
Shock
Pyroshock
Acidic Atmosphere
Gunfire Shock
Temperature, Humidity, Vibration and Altitude
Icing/Freezing Rain
Ballistic Shock
Vibro-Acoustic/Temperature
Freeze /Thaw
Time Waveform Replication
Rail Impact
Multi-Exciter Testing (MET)
Mechanical Vibrations of Shipboard Equipment

General Laboratory test Method Guidelines

Test Conditions
Tolerances for Test Conditions
Test Instrumentation
Suitability for environment
Calibration
Stabilizing Test Temperature
Test item operating
Test item non-operating
Test Sequence
Test Level Derivation
Test Setup
Test item operation
Interrupted Tests
In-tolerance interruptions
Out-of-tolerance interruptions
Interruption due to test item operation failure
Combined Tests
Post-test Data
Environmental Effects and Failure Criteria
Environmental Test Reports
Water Purity
Analysis of Results
Monitoring
Monitoring test chamber parameters
Monitoring the item under test
Total High Temperature Exposure Duration

Environmental Management and Engineering Tasks

Task 401 – Environmental Engineering Management Plan (EEMP)
Task 402 – Life Cycle Environmental Profile (LCEP)
Task 403 – Operational Environment Documentation (OED)
Task 404 – Environmental Issues/Criteria List (EICL)
Task 405 – Detailed Environmental Test Plans (DETP)
Task 406 – Environmental Test Reports (ETR)
Detailed Program Management Guidance
Environmental Tailoring Guidelines for Environmental Engineering Specialists (EES)
C-1 Areas of occurrence of climatic categories A1, A2, & A3 C-5
C-2 Areas of occurrence of climatic categories B1, B2, & B3 C-6
C-3 Areas of occurrence of climatic categories C1, C2, & C3 C
C-1 Areas of occurrence of climatic categories A1, A2, & A3 C-5
C-2 Areas of occurrence of climatic categories B1, B2, & B3 C-6
C-3 Areas of occurrence of climatic categories C1, C2, & C3 C-7

TONEX MIL-STD-810G Testing Framework, Recommendations and Checklists
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