Baoshan Huang
Engineering in Knoxville, TN

2012025, Oct 4, 2012

Mar 29, 2012

13/433465

Baoshan Huang - Knoxville TN, US
Xiang Shu - Knoxville TN, US
Hao Wu - Changsha, CN

UNIVERSITY OF TENNESSEE RESEARCH FOUNDATION - Knoxville TN

G06F 19/00

702 43, 702 42

A loaded wheel tester for testing asphalt mixtures comprises a loaded wheel tester having additional means for attachment to specimens under test to provide a measurement of tensile strain and for attachment between a frame of the loaded wheel tester and the loaded wheel to determine position of the loaded wheel over time. Output results demonstrate that viscoelastic and fatigue properties of asphalt mixtures are obtained in equivalent or improved format using a modified loaded wheel tester when compared with known pavement test apparatus and methods.

2011024, Oct 6, 2011

Jun 16, 2011

13/162099

Baoshan Huang - Knoxville TN, US
Xiang Shu - Knoxville TN, US
Jingyao Cao - Santa Clara CA, US

University of Tennessee Research Foundation - Knoxville TN

C04B 16/04, C04B 20/00, C04B 7/02

523204, 5253331

Rubber-modified cementitious substances and various methods of making such substances or components thereof. One embodiment of the substance includes a mix of cement and composite particles, wherein essentially each of the composite particles has a rubber core enclosed in an inorganic exterior and wherein the rubber core is chemically coupled to the inorganic exterior. The chemical coupling between the rubber core and the inorganic exterior and the bonding between the inorganic exterior and the cement result in a rubber-modified cementitious substance that has greater strength than comparable conventional rubber-modified cementitious substances. One embodiment of the method of making a rubber-modified cementitious substance includes (1) reacting a coupling agent with rubber particles and inorganic particles to yield composite particles, wherein essentially each of the composite particles has a rubber core enclosed in an inorganic exterior and (2) combining the composite particles with a cementitious substance to yield a rubber-modified cementitious substance.

2009011, Apr 30, 2009

Oct 24, 2008

12/257898

Baoshan HUANG - Knoxville TN, US
Jingyao Cao - Santa Clara CA, US
Xiang Shu - Knoxville TN, US

C08K 9/10

523205

Rubber-modified cementitious substances and various methods of making such substances or components thereof. One embodiment of the substance includes a mix of cement and composite particles, wherein essentially each of the composite particles has a rubber core enclosed in an inorganic exterior and wherein the rubber core is chemically coupled to the inorganic exterior. The chemical coupling between the rubber core and the inorganic exterior and the bonding between the inorganic exterior and the cement result in a rubber-modified cementitious substance that has greater strength than comparable conventional rubber-modified cementitious substances. One embodiment of the method of making a rubber-modified cementitious substance includes (1) reacting a coupling agent with rubber particles and inorganic particles to yield composite particles, wherein essentially each of the composite particles has a rubber core enclosed in an inorganic exterior and (2) combining the composite particles with a cementitious substance to yield a rubber-modified cementitious substance.