Diploma in Rehabilitation Works Management and Quality Control
Sobre nuestro Diploma in Rehabilitation Works Management and Quality Control
The Diploma in Rehabilitation Works Management and Quality Control focuses on the application of advanced techniques for building rehabilitation, integrating project management with quality control and regulatory compliance. Key aspects are addressed, such as diagnosis of pathologies, selection of appropriate materials and construction techniques, and construction supervision, ensuring the durability and safety of the rehabilitated structures.
The program provides practical knowledge on analysis of existing structures, structural reinforcement, and application of current regulations, including sustainability criteria. This program prepares professionals for roles such as rehabilitation project managers, construction supervisors, quality control inspectors, and rehabilitation specialist technicians, with a focus on efficiency and resource optimization.
Target keywords (natural occurrences in the text): building rehabilitation, quality control, project management, pathology diagnosis, material selection, construction supervision, structural reinforcement, regulations, construction diploma.
Diploma in Rehabilitation Works Management and Quality Control
- Modalidad: Online
- Duración: 8 meses
- Horas: 900 H
- Idioma: ES / EN
- Créditos: 60 ECTS
- Fecha de matrÃcula: 30-04-2026
- Fecha de inicio: 10-06-2026
- Plazas disponibles: 11
899 $
Competencias y resultados
Qué aprenderás
1. **Comprehensive Expertise in Naval Rehabilitation: Management, Quality, and Optimization of Projects**
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Understand the key regulations and standards in naval rehabilitation, including international and local regulations.
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Apply methodologies for quality assessment in rehabilitation works, including inspections, testing, and materials control.
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Identify and analyze the risks associated with naval rehabilitation projects and develop mitigation strategies.
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Optimize naval rehabilitation processes, using tools and techniques to improve efficiency and reduce costs.
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Become familiar with different structural repair and reinforcement techniques, including welding, lamination, and composites.
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Learn to select and use the appropriate materials for each type of repair, considering factors such as corrosion resistance and durability.
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Interpret plans and technical specifications, and understand the specific terminology of the naval sector.
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Manage the documentation for naval rehabilitation projects, including technical reports, inspection records, and quality certificates.
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Develop leadership and teamwork skills, essential for managing naval rehabilitation projects.
Master the principles of project management in the naval field, from initial planning to execution and closure.
2. **Excellence in Naval Rehabilitation: Quality Control, Project Management, and Professional Efficiency**
- Master the fundamentals of quality control in naval rehabilitation, including inspections, testing, and regulations.
- Apply advanced project management techniques to optimize schedules, budgets, and resources in rehabilitation projects.
- Develop leadership and effective communication skills to coordinate multidisciplinary teams and ensure the achievement of objectives.
- Evaluate and select cutting-edge materials and technologies for naval rehabilitation, considering factors of durability, strength, and efficiency.
- Analyze the causes of failure and apply diagnostic methods to identify and resolve structural problems in vessels.
- Implement strategies for continuous improvement in naval rehabilitation processes, seeking cost optimization and customer satisfaction.
- Apply the principles of occupational safety in The naval rehabilitation environment, ensuring a safe and secure working environment.
Understand and apply relevant international regulations and standards for naval rehabilitation, such as those of the IMO and classification societies.
Use simulation and modeling tools to predict the behavior of naval structures during and after rehabilitation.
Acquire knowledge of energy efficiency and sustainability in naval rehabilitation, including optimizing fuel consumption and reducing emissions.
3. Comprehensive user-oriented design and validation (from modeling to manufacturing)
You will learn to integrate the entire product development process, from initial model conception to final validation, applying user-centered methodologies. You will develop skills in parametric design, ergonomics, simulation, sustainable materials, 3D visualization, and manufacturing management, ensuring efficient, safe solutions that meet current industry standards.
4. **Master's Degree in Naval Rehabilitation: Quality Control, Strategic Management, and Superior Results**
4. **Master’s Degree in Naval Rehabilitation: Quality Control, Strategic Management, and Superior Results**
- Comprehensive evaluation of structural integrity, including analysis of complex couplings such as flap-lag-torsion, enabling the accurate prediction of component behavior under dynamic and static loads. Analysis of whirl flutter, critical for aerodynamic stability, and evaluation of material fatigue, fundamental for durability and safety.
- Design and dimensioning of advanced components, using finite element (FE) methods for the accurate simulation of the structural behavior of laminates in composites, optimizing their strength and weight. Detailed analysis of joints and bonded joints, ensuring efficient load transfer and long-term integrity.
- Application of cutting-edge methodologies to guarantee safety and extend the service life of naval structures.
Implementation of damage tolerance techniques to assess a structure’s ability to withstand damage without catastrophic failure. Use of non-destructive testing (NDT) such as ultrasonic testing (UT), radiography (RT), and thermography for early defect detection and accurate assessment of structural integrity.
5. **Specialization in Naval Rehabilitation: Quality Control, Project Management, and Superior Performance**
- Master the principles of quality control in naval rehabilitation, ensuring the integrity and durability of structures.
- Acquire advanced skills in management of naval works, optimizing resources and meeting established deadlines.
- Develop strategies to achieve superior performance in naval rehabilitation, exceeding expectations for quality and efficiency.
- Gain in-depth knowledge of the analysis of failures and material degradation in marine environments, including corrosion, fatigue, and other mechanisms.
6. **Naval Engineering: Rehabilitation of Works, Quality Control, and Professional Management**
You will learn to integrate the entire product development process, from initial model conception to final validation, applying user-centered methodologies. You will develop skills in parametric design, ergonomics, simulation, sustainable materials, 3D visualization, and manufacturing management, ensuring efficient, safe solutions that meet current industry standards.
Para quien va dirigido nuestro:
Diploma in Rehabilitation Works Management and Quality Control
- Construction professionals, civil engineers, architects, and building technicians.
- Site managers, project managers, and quality control managers seeking to specialize in rehabilitation.
- Technical staff from construction companies, developers, and consultancies wishing to improve their construction management skills.
- Public administration technicians involved in the management and supervision of rehabilitation projects and quality control.
- Standards-driven curriculum: you will work with CS-27/CS-29, DO-160, DO-178C/DO-254, ARP4754A/ARP4761, ADS-33E-PRF from the first module.
- Accreditable laboratories (EN ISO/IEC 17025) with rotor bench, EMC/Lightning pre-compliance, HIL/SIL, vibrations/acoustics.
- Evidence-oriented TFM: safety case, test plan, compliance dossierand operational limits.
- Mentored by industry: teachers with experience in rotorcraft, tiltrotor, eVTOL/UAM and flight test.
- Flexible modality (hybrid/online), international cohorts and support from SEIUM Career Services.
- Ethics and security: safety-by-design approach, cyber-OT, DIH and compliance as pillars.
**Module 1 — Introduction to Naval Rehabilitation and Quality**
1.1 Fundamentals of Naval Rehabilitation: Definition and Scope
1.2 Regulations and Quality Standards in the Naval Industry
1.3 Types of Damage and Deterioration in Naval Structures
1.4 Initial Inspection and Assessment: Methods and Techniques
1.5 Materials and Components in Shipbuilding
1.6 Introduction to Quality Control: Principles and Practices
1.7 Quality Documentation and Records in Naval Projects
1.8 Introduction to Risk Management in Naval Rehabilitation
1.9 Tools and Software for Naval Rehabilitation
1.10 Case Studies: Successful Naval Rehabilitation
1.10
2.2 Strategic Planning in Naval Rehabilitation
2.2 Detailed Scheduling of Naval Works
2.3 Contractor Selection and Management
2.4 Logistics and Supply of Materials in Naval Environments
2.5 Cost and Budget Control in Naval Rehabilitation
2.6 Risk Management in Rehabilitation Projects
2.7 Progress Monitoring and Supervision
2.8 Change and Modification Management
2.9 Documentation and Progress Reports
2.20 Closure and Handover of Rehabilitation Projects
2.3
3.3 Fundamentals of Naval Rehabilitation
3.2 Types of Naval Works: Structures, Systems, and Equipment
3.3 Standards and Regulations in Naval Rehabilitation
3.4 Materials and Technologies Applied in Naval Works
3.5 Planning and Scheduling of Rehabilitation Projects
3.6 Health and Safety in Naval Works
3.7 Introduction to Quality Control in Rehabilitation
3.8 Risk Management in Naval Projects
3.9 Case Studies: Successful Rehabilitation Projects
3.30 Introduction to Sustainability in Naval Rehabilitation
3.30
4.4 Strategic Planning for Naval Rehabilitation Projects
4.2 Regulatory Framework and Compliance in Naval Works
4.3 Risk Management in Naval Rehabilitation Projects
4.4 Design of Naval Structures for Rehabilitation
4.5 Advanced Quality Control in Naval Rehabilitation Work
4.6 Cost and Budget Optimization in Naval Works
4.7 Contract and Supplier Management in Naval Rehabilitation
4.8 Implementation of Technologies in Naval Rehabilitation
4.9 Sustainability and Environmental Management in Naval Projects
4.40 Success Stories and Best Practices in Naval Rehabilitation
5.5 Initial Inspection and Damage Assessment of Naval Structures
5.5 Quality Control Standards and Regulations in the Naval Industry
5.3 Planning and Execution of Non-Destructive Testing (NDT)
5.4 Analysis of Materials and Welds in Naval Rehabilitation
5.5 ​​Documentation Management and Quality Traceability
5.6 Quality Management Systems (QMS) and their Implementation
5.7 Internal and External Quality Audits in Naval Projects
5.8 Quality Control in Corrosion Protection Work
5.9 Resolution of Non-Conformities and Corrective Actions
5.50 Final Quality Control Report and Project Closure
6.6 Fundamentals of Naval Engineering: Principles and Ship Design
6.2 Materials in Shipbuilding: Selection and Applications
6.3 Naval Structures: Strength, Design, and Analysis
6.4 Rehabilitation of Naval Works: Methodology and Techniques
6.5 Quality Control in Naval Construction and Repair
6.6 Project Management in the Naval Industry: Planning and Execution
6.7 Legislation and Regulations in Naval Rehabilitation
6.8 Inspection and Damage Assessment of Naval Structures
6.9 Hull Repair: Welding, Cutting, and Plate Replacement
6.60 Preventive and Corrective Maintenance in Naval Works
7.7 Fundamentals of Quality Control in Naval Rehabilitation
7.2 Quality Standards and Regulations in the Naval Industry
7.3 Inspection and Damage Assessment of Naval Structures
7.4 Planning and Scheduling of Quality Controls
7.7 Non-Destructive Testing (NDT) Techniques in Naval Rehabilitation
7.6 Materials Management and Supplier Control
7.7 Quality Control Documentation and Reports
7.8 Audits and Compliance Verification
7.9 Failure Analysis and Corrective Actions
7.70 Continuous Improvement in Naval Quality Control
8.8 Strategic Planning in Naval Rehabilitation
8.8 Regulations and Quality Standards in Naval Works
8.3 Advanced Quality Control Techniques
8.4 Risk Management in Rehabilitation Projects
8.5 Cost and Resource Optimization in Naval Works
8.6 Comprehensive Naval Rehabilitation Methodologies
8.7 Implementation of Quality Management Systems
8.8 Performance Analysis and Continuous Improvement
8.9 Innovation in Materials and Technologies for Naval Works
8.0 Case Studies and Best Practices
Module 9 — Key Principles of Naval Rehabilitation
9.9 Introduction to Naval Rehabilitation: Definition and Scope
9.9 Types of Damage and Pathologies in Naval Structures
9.3 Key Materials and Technologies in Rehabilitation
9.4 Naval Safety Regulations and Standards
9.5 Conceptual Design and Project Planning
9.6 Initial Vessel Inspection and Diagnosis
9.7 Risk Assessment and Feasibility Analysis
9.8 Selection of Rehabilitation Methods and Techniques
9.9 Budgeting and Initial Cost Estimation
9.90 Legal Aspects and Required Permits
9.90
1. Fundamentals of Naval Rehabilitation: Introduction to Construction Management
2. Regulations and Quality Standards in Naval Rehabilitation
3. Planning and Scheduling of Naval Rehabilitation Projects
4. Cost Control and Budgeting in Naval Works
5. Risk Management in Rehabilitation Projects
6. Materials and Technologies in Naval Rehabilitation
7. Inspection and Quality Control in the Construction Process
8. Health and Safety in Naval Rehabilitation Works
9. Project Documentation and Closure
10. Case Study: Comprehensive Application of Quality and Management in a Real-World Project
- Hands-on methodology: test-before-you-trust, design reviews, failure analysis, compliance evidence.
- Software (depending on licenses/partners): MATLAB/Simulink, Python (NumPy/SciPy), OpenVSP, SU2/OpenFOAM, Nastran/Abaqus, AMESim/Modelica, acoustics tools, planning toolchains DO-178C.
- SEIUM Laboratories: scale rotor bench, vibrations/acoustics, EMC/Lightning pre-compliance, HIL/SIL for AFCS, data acquisition with strain gauging.
- Standards and compliance: EN 9100, 17025, ISO 27001, GDPR.
Proyectos tipo capstones
Admisiones, tasas y becas
- Profile: Background in Computer Engineering, Mathematics, Statistics, or related fields; practical experience in NLP and valued information retrieval systems.
- Documentation: Updated CV, academic transcript, SOP/statement of purpose, project examples or code (optional).
- Process: Application → Technical evaluation of profile and experience → Technical interview → Review of case studies → Final decision → Enrollment.
- Fees:
- Single payment: 10% discount.
- Payment in 3 installments: No fees; 30% upon registration + 2 equal monthly payments of the remaining 35%.
Monthly payment: available with a 7% commission on the total; annual review.
Scholarships: based on academic merit, financial need, and promoting inclusion; agreements with companies in the sector for partial or full scholarships.
See “Calendar & Calls for Applications,” “Scholarships & Grants,” and “Fees & Financing” in the SEIUM mega-menu.
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