The most visible engineering details are the product’s geometry. A flat sheet of steel is inherently weak in bending and torsion. Through precision progressive die stamping, Mitek transforms that sheet into a three-dimensional load path. Observe a typical truss connector plate: the integral teeth are not sharpened points but carefully engineered triangular pyramids. The height, base angle, and hardness of each tooth are calculated to penetrate wood fibers without splitting them, maximizing the "embedment strength."
The Spire's engineering details didn't stop there. Mitek incorporated a range of cutting-edge technologies, including:
The most visible engineering details are the product’s geometry. A flat sheet of steel is inherently weak in bending and torsion. Through precision progressive die stamping, Mitek transforms that sheet into a three-dimensional load path. Observe a typical truss connector plate: the integral teeth are not sharpened points but carefully engineered triangular pyramids. The height, base angle, and hardness of each tooth are calculated to penetrate wood fibers without splitting them, maximizing the "embedment strength."
The Spire's engineering details didn't stop there. Mitek incorporated a range of cutting-edge technologies, including: mitek engineering details