PROVIDING ON LINE VIDEOS FEATURING MOTORCYCLES

Brand	Owner (click to sort)	Address	Description
DIRTY BIRD CONCEPTS	JOHN SHOPE'S DIRTY BIRD CONCEPTS	23047 N. 15th Lane Phoenix AZ 85027	Providing on-line videos featuring motorcycles, not downloadable; Providing on-line videos featuring bagger motorcycles, not downloadable; Providing on-line videos featuring custom motorcycles, not downloadable; Providing on-line videos featuring motorcycle customization, not downloadable; Providing on-line videos featuring components for motorcycle customization, not downloadable; Providing on-line videos about the motorcycle lifestyle, not downloadable; Providing on-line videos about the bagger motorcycle lifestyle, not downloadable;
MODERN PROHIBITION MOTORCYCLES	Hoover, Dylan	20 Talon Way Santa Rosa Beach FL 32459	Providing on-line videos featuring motorcycles, not downloadable;MOTORCYCLES;
WALTERRIFIC	Seaman, Walter	19301 W 201st Street Spring Hill KS 66083	Providing on-line videos featuring motorcycles, motorcycle driving, and motorcycle parts and accessories, not downloadable;The name(s), portrait(s), and/or signature(s) shown in the mark identifies Walter Seaman, whose consent(s) to register is made of record;WALTER TERRIFIC;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

A low CTE metal-ceramic composite material featuring carbon fibers reinforcing a matrix featuring silicon metal or silicon alloy. The fibers have a low coefficient of thermal expansion (CTE) in the axial direction, and preferably negative. The principles of making Si/SiC composites can be adapted to produce the instant Si matrix composites. The CTE of the composite body depends not only upon the relative CTE's of the fibers and matrix, and their relative amounts (e.g., loadings), but also upon the relative elastic moduli of the fibers and matrix. Thus, Si/SiC matrices produced by a reaction-bonding process inherently possess low CTE, but the instant inventors prefer to make such composites having relatively large fractions of unreacted silicon, thereby driving composite CTE lower still. Here, the carbon fibers are protected from reaction with the silicon infiltrant with one or more materials disposed between the fibers and the infiltrant. Providing at least a degree of toughness or impact resistance can also be realized in these composites. Laminates produce Isotropic or quasi-isotropic properties in the composite body can be realized by, for example, providing the fibers in the form of cross-plied laminates featuring the fibers in parallel or woven arrays.