Atlanta
GA
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