Tim Siahatgar

Tim Siahatgar is an acclaimed professional based in 5151 California Ave. unit #100, United States of America. Recognized for their exceptional talent and innovative design prowess, Tim Siahatgar has been honored as the winner of an esteemed A' Design Awards in the Building Components category. With a deep commitment to design excellence and a keen eye for detail, Tim Siahatgar continues to shape the future of design in United States of America and beyond.

Available Now for Your Next Story

At design|newsroom, we understand the pressures and deadlines journalists face. That’s why we offer exclusive access to our curated press kits and high-resolution images, tailored for accredited journalists. These resources are designed to enrich your stories with depth and visual appeal, spotlighting the world's most innovative designs.

Please Note:

• Credit the work's creator and/or photographer.
• Mention design|newsroom as your source.
• Share your published pieces with us; we love to celebrate and promote your work on our platform and social media.

Let’s Collaborate: Your stories matter. design|newsroom is here to support you with quality, accessible content. Once you are accredited, reach out for the images and content you need. We will provide the specific images and content directly, along with recommendations on works to feature.

Get Accredited Easily: Quick access to our resources requires media accreditation. Apply for media accreditation to join our network and start exploring a wealth of design stories.

MHS Building Systems Structural Aluminum Framing Design by Tim Siahatgar

Access Press Kit № 148543

Tim Siahatgar Press Releases

Discover Tim Siahatgar's journey through our press releases, available for all press members and journalists to use without restrictions. For immediate journalistic use: 1 press releases are available right now.

Tim Siahatgar Boilerplate

My name is Tim Siahatgar, and I am an architectural engineer based in Irvine, California. Having graduated from a leading architectural engineering program, my career has been marked by a deep interest in modularity and flexible structures. As an expert in building construction, I recognize that the connectors within a building's structure are crucial for creating solid and rigid constructions. Whether it involves wood-to-wood lumber connections using nails, glue, or bolts, or metal-to-metal connections through bolts or welding, the strength of a building hinges on these essential connections. Upon meticulous examination, I have identified that aluminum extrusions offer numerous advantages over traditional wood or metal materials for human habitation. However, a persistent challenge for over a century has been the connection of two hollow extrusions. Although aluminum welding is precise, it is prohibitively expensive, and bolting two extrusion elements together fails to adequately handle lateral loads. While aluminum extrusions have been used for building framing since 1904, their applications have primarily been limited to interior framing within the building industry. Several European companies, such as Syma-Systems in Switzerland, attempted to develop locking solutions for connecting extrusions as early as 1985, but these efforts were largely confined to interior framing. The true breakthrough came with the work of Buckminster Fuller (1895-1983), a renowned architect who invented an interlocking joint specifically for aluminum extrusions in constructing geodesic dome structures. Inspired by Fuller's pioneering work, I have, after years of research and development, created an enhanced interlocking clamping system for modular aluminum geometric profiles. This invention offers swift and straightforward improvements to traditional connector techniques, thereby enhancing the robustness, comfort, efficiency, affordability, and sustainability of building structures. A comparison between conventional wood connectors, current wood stud skin stress framing, and the state-of-the-art technology in MHS building systems reveals significant differences. My design incorporates an interlocking structural aluminum framing that, through testing and analysis, has proven to be twenty times stronger than counterparts commonly found in almost all wood or light steel stud framing used in Type 5 light building construction. Beyond strengthening structural integrity, my design contributes to sustainability by making building structures recyclable, relocatable, and renewable. As an architectural engineer committed to advancing building construction, I take immense pride in my ability to make a positive and lasting impact on our world

WDR F-Rank

Novitiate / Noviziato

Tim Siahatgar is at the early stage of their design career, showing potential for growth and creativity. While still developing their portfolio, their emerging talent suggests a promising future in design, with opportunities for significant professional advancement.