Material Advances in 3D Printing, Crop Health, Building and Construction

USD 250.00

* Required Fields

USD 250.00


Be the first to review this product

This issue of High-Tech Materials TOE focusses on advances in 3D printing, crop health, building and construction. Innovations profiled include material a material for improving crop health, a building material developed using carbon dioxide, 3D printed porous bricks and a 3D printed house made from polyurethane and concrete.The High-Tech Materials TechVision Opportunity Engine (TOE) provides intelligence on technologies, products, processes, applications, and strategic insights on various materials across industries. Some material technologies include lightweight materials, bio–based materials, ceramics, smart materials, fibers, nanomaterials, responsive materials, polymers, woven and non woven materials, po

Table of Contents

Material Advances in 3D Printing, Crop Health, Building and ConstructionInnovations in Materials for 3D Printing, Building & Construction, and Crop HealthMaterial for Improving Crop HealthBuilding Material Developed Using Carbon Dioxide3D Printed Porous Bricks, Which Absorb Water Like A Sponge3D Printed House Made From Polyurethane and ConcreteMaterials For Use in Big Area Additive ManufacturingKey ContactsKey Contacts

Why Frost & Sullivan

Working with the CEO’s growth team to create a vision based on a transformation growth strategy

Creating content-based digital marketing strategies that leverage our research perspective to differentiate and “tell your story”

Tracking over 1000 emerging technologies and analyzing the impact by industry and application to reveal the companies to watch in each sector

The Frost & Sullivan team is based in our 45 global offices and have developed a powerful global understandings of how industries operate on a global level.