![]() Appeal against this decision is not possible.Įxpected prior knowledge Basic knowledge is expected in the fields of materials, processes and mechanics. The faculty of aerospace engineering will decide whether you will be admitted based on the information you have provided. If you do not meet these requirements because you do not have a relevant Bachelor's degree but you have a Bachelor's degree from a reputable institution and you think you have sufficient knowledge and experience to complete the course, you are welcome to apply, stating your motivation and reasons for admission.A relevant BEng or BSc degree in a subject closely related to the content of the course or specialized program in question, such as aerospace engineering, aeronautical engineering, mechanical engineering, civil engineering or (applied) physics.Daniel "Engineering Mechanics of Composite Materials" or the ASM handbook Volume 21 "Composites". Mallick "Fiber-Reinforced Composites: Materials, Manufacturing and Design" is needed (online provided by TU Delft Library). Repair of composite structures.ĭate of resit: To be announced. Week 7: Design of composite structures, rules of thumb, with open and filled holes.Week 6: The basics of macro-mechanics of composites, with the ABD matrix and the effects of free edges.Week 5: The basics of micro-mechanics of composites.Week 4: How does failure occur, how do we test this and what about the design allowables resulting from these tests.Week 3: Manufacturing, the impact of it on your design.Week 2: Composites and metals, what you need to know, and what the differences are.Design strategies to get to a lightweight design. From function to the trinity of lightweight design. Week 1: Introduction into lightweight structures.Familiarize yourself with unwanted stress distributions in composite materials.Understand the correlation between fiber content, orientation control, fiber length, manufacturing process and application.Be able to explain the parameters and their relationships, which play a role in the development of lightweight structures and components.Determine typical strong and weak points in the performance of lightweight structures. ![]() Distinguish composites from metals on a micro and macro scale.Identify various types of materials (including carbon, glass, aramid, Dyneema fibers, thermoplastic and thermoset polymers, and more).Analyze the conditions required to categorize a design as a lightweight design.Understand how lightweight composites affect your choices with regards to structural layouts.Know what design choices you have to make for different requirements.By the end of this course you will be able to: So, the math is kept to the minimum necessary to calculate and analyze the materials and the structural designs proposed. Complex mathematical expressions often hinder students' progress in gaining a real understanding of the problem and from developing a "gut feeling" for the topic. Alongside the videos, readings are given to reinforce your knowledge. This course uses videos created with VideoScribe software, so it has more impact on the viewer than traditional filmed material. It will also act as a valuable refresher course for experienced engineers. This course is for practicing engineers and managers in industries and engineering disciplines who are involved in the design process of lightweight structures or components. The main focus is on structures made with composites but use of metals will be addressed as well. The course covers the design principles of lightweight structures durability and fatigue testing manufacturing methods and mechanics. The evidence gained from both successes and failures demonstrates that the interaction between these three elements is crucial for successful designs and end products. This course provides an introduction to lightweight structures, starting with the "trinity" - the interaction between shape design, base material and manufacturing. However, these structures present challenges: they need to be light but also safe, durable and easy to maintain. Lightweight structures are widely used for this purpose. Weight reduction is a key factor in the development of materials and components for use in many industries.
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