What We Do …..
We are a full-service company, with the capability of designing and building complete, integrated systems as well as individual components.
Our sales staff and project managers work together with customers to determine the best fit for their application. Onsite point cloud laser scanning of facilities and equipment is available to ensure seamless integration with existing structures and processes. From there, our engineering department uses state-of-the-art 3D modeling and FEA analysis software to design the equipment. An experienced team of fabricators and assemblers then builds the equipment to the exact specifications.
Our products include all types of conveyors (belt, drag, screw, etc.), bucket elevators, blenders, storage bins and all periphery types of products (mezzanines, walkways, galleries, ladders, etc.). We service a broad spectrum of industries from recycling and waste to energy, to bulk powders and wastewater.
Design & Build Conveying Systems
DG Marshall Associates offers design and equipment solutions for a variety of bulk material handling applications. Servicing a broad spectrum of industries, we provide a wide range of products including screw conveyors, belt conveyors, bucket elevators, drag conveyors, blenders and mixers. We offer design and analysis solutions based on the material’s specific particle size, bulk density, flow, abrasiveness, etc., to ensure your product flows optimally.
DG Marshall has all the resources needed to bring your custom project to life. With capabilities that include computer-aided design and custom forming, our experienced team can produce a large variety of specialty fabrications.
Reality Capture Technology
DG Marshall Associates relies on an experienced team of engineers, state of the art technology, and proven manufacturing standards to provide our customers with the most effective and economical solutions to fit their bulk material handling needs.
- New product design and analysis
- 3D scanning of existing equipment and facilities
- Structural analysis