Hello, I am Juan Carlos Munguia Engineering Director of the company M Aerospace RTC and in this course we will talk about the various applications that exist for 3D printing, as well as we will introduce you to the design techniques for Additive Manufacturing developed through the passing of the years within the company covering the basic principles of the various 3D printing technologies in the world.
Additive Manufacturing (AM), known as 3D Printing, is revolutionizing the way components are designed and produced. AM allows to generate products according to demand without the need to have special equipment or tools all the time, allowing access to an endless number of digital tools, as well as improving the performance of the parts. However, the knowledge of this technology is a fundamental problem to be able to scale it. Do you have what it takes to take your organization to the next level and take this course to learn more about the secrets of this technology?
This course is tailored for engineering students, architects, engineers or managers who wish to expand their knowledge in the additive world, since we will touch on topics such as: the status and implications of additive manufacturing, we will analyze the costs associated with 3D printing, as well as we will give a detailed guide with the design guides based on certain 3D printing processes, as well as we will learn what a topological optimization is and more.
This course is designed for people with little experience in 3D printing technologies, as well as people with previous knowledge in the subject who wish to investigate and expand their knowledge on the subject through Methodologies such as Critical Thinking of Additive Manufacturing.
Learn to distinguish the basic concepts of additive manufacturing, as well as to know the evolution of the industry from the first attempts to the present, in order to identify general concepts, useful parameters and define an interdisciplinary language.
You will know the types of processes and applications that exist for additive manufacturing; through the use of relevant concepts, as well as guidelines for a good additive design following the various methodologies implemented in the company with practical examples.
You will learn to analyze the performance of a printed prototype and propose improvements to an existing model to increase its efficiency through the use of internally developed design techniques, as well as the preparation of a model to later generate latices and fill patterns, as well as simulations. of the printing process.
You will learn to carry out a feasibility study, as well as to develop tools to estimate costs in printed models and thereby know the implications of taking it to a robust supply chain.
In addition to analyzing various case studies applied to additive manufacturing, as well as knowing what the true challenges of such technology are in the future, identifying opportunities both in the short, medium and long term for the construction of innovative processes and products in the market.