Build a lasting personal brand

Diamond Billiard Products Replaces Wood Legs with Molded Composite, Cutting Labor and Improving Tournament Setup

By Editorial Staff
Diamond Billiard Products partnered with Manar to convert wooden table legs to injection-molded composite, reducing production time, labor, and tournament installation effort while improving durability.
Diamond Billiard Products Replaces Wood Legs with Molded Composite, Cutting Labor and Improving Tournament Setup

Diamond Billiard Products, a manufacturer of high-performance pool tables used in professional tournaments worldwide, has replaced traditional wooden legs with a high-performance molded composite solution. The conversion reduces labor, improves durability, accelerates tournament installation, and positions the company for continued growth.

For decades, professional billiards has been defined by precision. At the highest levels of competition, even the smallest variation in performance matters. When Diamond set out to modernize one of the most traditional components of its tournament tables, it was not a cosmetic upgrade but a structural and operational transformation.

Diamond's original table legs were made of wood—durable and traditional, but complex to manufacture. Each leg required cutting, shaping, sanding, finishing, and pre-assembly across multiple departments. The process involved eight employees and 10 to 12 individual components per leg. From raw material to finished product, production could take up to three months. Brent Lykins, mechanical engineer at Diamond, explained: "I'm here to find better ways of doing things, approaches to reduce manufacturing time and enhance performance. The wood legs were very labor intensive. We wanted to streamline it."

Installation was also inefficient. At tournaments, installers had to access leveling nuts near the floor, often lying on their backs to make adjustments. With tables set up across uneven venues, this process was slow and physically demanding.

Diamond spent several years developing concepts and 3D-printed prototypes before moving forward. To make the design manufacturable at scale, they partnered with Manar, Inc., a custom plastic injection molding company. Together, the teams refined the design for injection molding while ensuring it could meet tournament-level demands. The final material, 40% long-glass polypropylene, provided the strength required for structural performance. FEA validation confirmed the legs could support a 1,200- to 1,300-pound table with minimal deflection. Diamond also conducted real-world stress testing, lifting and dropping tables to confirm durability.

The operational impact was dramatic. The wood legs that once required months of multi-step handling were replaced with a molded structural component produced in a fraction of the time. Part consolidation reduced 10 to 12 wood components to a primary molded body with a foot block and shaft. The new design also improved tournament setup. Instead of accessing adjustment points from underneath, installers now use a side-access panel and battery-powered tool while seated. Legs can be adjusted up to 1.5 inches to accommodate uneven floors. Installation is three to four times faster, with improved ergonomics without sacrificing precision. At large tournaments with hundreds of tables, the time savings are substantial.

Anthony Neeley, new business development and director of operations at Manar, explained, "This wasn't just about molding a part. It was about applying a design for manufacturability approach to meet the structural demands of tournament-level use and deliver measurable operational improvements. When Diamond needed legs, they needed to know they could count on us, and that's exactly what we deliver."

Manar played a critical role early in the process, helping to refine Diamond's initial concepts into a manufacturable solution. As an extension of Diamond's engineering team, Manar provided guidance on material selection, part design, and tooling while helping validate performance through analysis and real-world testing. Diamond's facility is located near a Manar location, allowing for close collaboration, rapid sample exchange, and hands-on engineering support. Diamond now relies on Manar for leg production and continued innovation.

Following the success of the legs, Diamond partnered with Manar to manufacture its table pockets. Previously, pocket components were molded domestically, shipped to Taiwan for leather wrapping, and returned, resulting in long lead times of up to three months, freight delays, quality fallout of up to 50%, and risk exposure. The redesigned pocket consolidates parts, eliminates a production step, removes dependency on overseas finishing, uses automated molding with robotic insert placement, and offers improved durability with a modern matte black textured finish. The redesign mitigates risk, reduces scrap, and improves supply reliability.

Pool tables are iconic, traditional products. Innovation in this category is not common. But Diamond saw an opportunity. By converting a core structural component from wood to composite, they reduced labor and manufacturing time, improved installation ergonomics, increased durability, strengthened supply chain reliability, and maintained tournament-level performance. Through its partnership with Manar, Diamond successfully modernized a legacy product without compromising the quality players expect.

Editorial Staff

Editorial Staff

@editorial-staff

Newswriter.ai is a hosted solution designed to help businesses build an audience and enhance their AIO and SEO press release strategies by automatically providing fresh, unique, and brand-aligned business news content. It eliminates the overhead of engineering, maintenance, and content creation, offering an easy, no-developer-needed implementation that works on any website. The service focuses on boosting site authority with vertically-aligned stories that are guaranteed unique and compliant with Google's E-E-A-T guidelines to keep your site dynamic and engaging.