FRANK OAK

Brand Owner Address Description
FRANK & OAK UCG CANADA HOLDINGS INC. 666 Burrard Street, Suite 1700 Park Place, Vancouver British Columbia V6C2X8 Canada FRANK AND OAK;Women's clothing, namely, athletic clothing in the nature of tops, yoga pants, leggings, hoodies, sweaters, shorts, pants, cardigans, tank tops, athletic bras, business clothing in the nature of tops, blouses, sweaters, tunics, pants, suits, slacks, jeans, dresses, skirts, bras, underwear, blazers, cardigans, casual clothing in the nature of tops, blouses, sweaters, leggings, tunics, capris, shorts, pants, t-shirts, tank tops, jeans, dresses, skirts, bras, underwear, dress clothing in the nature of tops, blouses, sweaters, slacks, gowns, tuxedos, pants, dresses, skirts, jackets, cardigans, suits, outdoor winter clothing in the nature of trousers, sweaters, scarves, gloves, mittens, coats, jackets, thermal underwear, sports clothing in the nature of sport coats, sport shirts, sport stockings, sports bras, sports hats and caps, sports jackets, sports jerseys, sports uniforms, sports over uniforms, sports pants, sports shirts, sports shoes, sports singlets, sports vests, sport tops, sport pants, sport shorts, sport hoodies, sport cardigans, sleepwear, lingerie, exercise wear in the nature of shorts, shirts, pants, gym pants, gym shorts, gym suits, socks, tops, women's underwear, maternity wear in the nature of tops, blouses, sweaters, leggings, tunics, capris, shorts, pants, t-shirts, tank tops, pants, jeans, dresses, skirts, bras, underwear, swim wear, rainwear, beachwear, socks, underwear, belts, gloves, scarves, mittens, hats, caps, visors, headbands, ear muffs, wristbands; women's footwear, namely, athletic footwear, beach footwear, casual footwear, exercise footwear, outdoor winter footwear, rain footwear, sports footwear, shoes, boots, sneakers, beach shoes, sandals, slippers;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. Dislocations are fabricated into electrolyte membrane films to increase ion conductivity. Ion and/or electron irradiation causes the growth of vacancy clusters within the thin film and collapsing into Frank dislocation loops that exhibit high ion conductivity. Maximum ion conductivity is accomplished by spatially reorienting the Frank dislocation loops during a following heat-treatment of the membrane. Thereby the dislocation loops form surface-to-surface continuous dislocations along which ions may propagate between membrane surfaces with minimal activation energies. Dislocation densities in the range of 10