SBIR-STTR Award

Bamboo Fiber Processing for Use in Reinforced Composites
Award last edited on: 3/30/2022

Sponsored Program
SBIR
Awarding Agency
NSF
Total Award Amount
$1,613,936
Award Phase
2
Solicitation Topic Code
-----

Principal Investigator
Trey William Riddle

Company Information

Gradient Engineering

29 Barnett Lane
Bozeman, MT 59071
   (406) 582-4981
   inquire@gradienten.com
   www.gradienten.com
Location: Single
Congr. District: 00
County: Carbon

Phase I

Contract Number: ----------
Start Date: ----    Completed: ----
Phase I year
2013
Phase I Amount
$179,978
This Small Business Innovation Research Phase I project will address the three major factors currently limiting the global production of bamboo fibers for composites. First, all natural fibers absorb water from the air and direct contact from the environment. Second, the strength of natural fiber composites is less than that of composites reinforced with glass fibers. Part of this reduced strength is a result of the poor bonding between the fiber and the resin matrix. The labor-intensive raw material processing requirements constitute a third factor which inhibits the US in particular from developing a bamboo industry. All three of these issues will be addressed through a novel fiber extraction and treatment process. Development of bamboo fiber reinforcements will advance the state-of-the-art for plant fiber products. Additional significant innovative aspects of this process lie in the assessment of a bamboo species capable of being grown in the US, automation of raw bamboo processing, utilization of waste products for neutralization of treatment wastewater and implementation of a fully optimized multi-step material functionalization process.

The broader impact/commercial potential of this project will be an increased usage of sustainable materials, increased revenue for US agriculture, increased domestic and international sales of a new and innovative product line, and additional jobs in support of research, manufacturing, and sales of bamboo fiber-reinforced composites. Bamboo in particular can provide manufacturers with a reduced-cost reinforcing material that has similar specific mechanical properties to fiberglass. An untapped market exists for the use of Bamboo fibers as reinforcements in compounded thermoplastics and as fiber reinforcement material in thermoset composites. The development of a novel processing technique will enable the team to capitalize on this market by supplying products which can compete with traditional fiberglass. This process will support the birth of an entirely new industry that expands US agriculture and encourages global distribution of US-manufactured, environmentally friendly products. Moreover, increases in Bamboo cultivation as result of these new products will help mitigate adverse environmental impacts and improve public health. This will be done by the inherent sequestration of carbon dioxide in the plant growth cycle, and a reduction in the pollution associated with the use of high-energy fiber processing techniques.

Phase II

Contract Number: ----------
Start Date: ----    Completed: ----
Phase II year
2014
(last award dollars: 2017)
Phase II Amount
$1,433,958

This Small Business Innovation Research Phase II project will eliminate remaining barriers to the production of bamboo fibers for use as a reinforcement in polymer composites. The broader impact/commercial potential of this project will be an increased usage of sustainable materials, increased revenue for US agriculture, and increased domestic and international sales of a new and innovative product line. Success in this project will also lead to domestic job creation needed to support the research, manufacturing, and sales of these composites. The processes to be finalized during this Phase II project will support the growth of a nascent based on US-manufactured, environmentally-friendly products. Within three years of launch, it is expected that over $4 million in revenue will be generated by sales of bamboo fiber. Moreover, increases in bamboo cultivation as a result of these new products will help mitigate adverse environmental impacts and improve public health. This will be done by the inherent sequestration of carbon dioxide in the plant growth cycle, and a reduction in the pollution associated with the use of high-energy glass fiber and plastics processing techniques.This Phase II project will address the following research topics: species variations, manufacturability, additional high value products, additional composite properties, processing and treatment optimization, and commercial scale-up. The team will assess the mechanical and physical implications of variations in feedstock by the use of filament tensile testing. Surface treatments specific to bamboo fibers will be finalized, with the goal of increased fiber-matrix interfacial adhesion, mitigation of water absorption, and compatibility with at least three major resins systems. These treatments will be evaluated via composite tensile testing, filament testing and water immersion testing. Manufacturing studies will be performed to verify compatibility with commercial scale manufacturing equipment. The design and manufacture of a small scale, batch plant will address technological and automation challenges. This plant will provide a bridge to a commercial-scale plant designed to produce 6 million pounds of fiber yearly. Additional innovative aspects to the project lie in the assessment of a bamboo species compatible with climates in the US, automation of raw bamboo processing, and implementation of a fully optimized multi-step material functionalization process.