Christopher Auld

Title: Innovations of Christopher Auld in Additive Fabrication

Introduction

Christopher Auld is an accomplished inventor based in Boston, MA (US). He has made significant contributions to the field of additive fabrication, holding a total of 4 patents. His work focuses on improving the efficiency and effectiveness of additive manufacturing processes.

Latest Patents

Auld's latest patents include innovative techniques for integrated preheating and coating of powder material in additive fabrication. These techniques aim to enhance the efficiency of sintering processes. The patents describe mechanisms for depositing and leveling source material, combined with heating elements that apply heat directly to the build region during material deposition. This approach allows for greater control over material temperature, minimizing excess exposure and preventing undesirable changes to the material.

Another notable patent involves a building material enclosure comprising a thermal break. This invention addresses the degradation of material during the sintering process by maintaining different temperatures within the chamber. The thermal break structure ensures that parts formed earlier in the fabrication process remain cooler, while the upper surface of unconsolidated material is heated sufficiently to facilitate consolidation with minimal additional energy.

Career Highlights

Christopher Auld is currently employed at Formlabs, Inc., where he continues to innovate in the field of additive manufacturing. His work has been instrumental in advancing the capabilities of 3D printing technologies.

Collaborations

Auld collaborates with talented individuals such as Eduardo Torrealba and Steven Thomas, contributing to a dynamic team focused on pushing the boundaries of additive fabrication.

Conclusion

Christopher Auld's contributions to additive fabrication through his patents and work at Formlabs, Inc. highlight his role as a key innovator in the industry. His techniques for improving efficiency and material handling in additive manufacturing are paving the way for future advancements.