Services
Services
Project description
Design and Analytical Support
Design and Analytical Support
MECHANICAL LOADS AND STRENGTH
Aerospace industry
Determination of the mechanical characteristics of structures and systems:
• Analysis of layout and structural diagrams and loading patterns of structures;
• Loading analysis of elements and composite structures;
• Analysis of physical and mechanical properties of materials in operating conditions;
• Analysis of safety factors and basic requirements for ground development tests to ensure the best structure-to-propellant mass ratio with a specified reliability;
• With a sufficiently high reliability, analysis of static, vibration and acoustic loads, dynamic characteristics and strength of structures with the lowest mass;
• Analysis of stiffness of structures and their individual elements, analysis of vibration frequencies and modes;
• Development of recommendations for shock and vibration protection;
• Development of software and procedures for strength design verification and development tests.
Aerospace industry
Determination of the mechanical characteristics of structures and systems:
• Analysis of layout and structural diagrams and loading patterns of structures;
• Loading analysis of elements and composite structures;
• Analysis of physical and mechanical properties of materials in operating conditions;
• Analysis of safety factors and basic requirements for ground development tests to ensure the best structure-to-propellant mass ratio with a specified reliability;
• With a sufficiently high reliability, analysis of static, vibration and acoustic loads, dynamic characteristics and strength of structures with the lowest mass;
• Analysis of stiffness of structures and their individual elements, analysis of vibration frequencies and modes;
• Development of recommendations for shock and vibration protection;
• Development of software and procedures for strength design verification and development tests.
Other industries
• Calculation of the stress-strain state of structures;
• Strength analysis using nonlinear theories;
• Stability analysis;
• Determination of vibration natural modes and frequencies;
• Implementation of dynamic and frequency analysis of structures;
• Optimization of mechanical behavior.
Analysis results have been repeatedly verified by the ground experimental strength tests.
Successful introduction into the aerospace technology design process and repeated verification of the analysis results by the strength testing permit to propose the mentioned analysis types to the potential customers at the engineering services market.
