NEW | LIMITED EDITION
The L.U.C 8HF in titanium boasts the L.U.C. Caliber 01.06-L, the world's first chronometer-certified high-frequency movement. Beating at 57,600 vibrations per hour, this means significant improvement in the caliber's precision timekeeping properties, particularly in rate resumption and stability. With an avant-garde design of titanium... monobloc lugs and a matt-finished caseback featuring a glass positioned just above the high-frequency escapement, this 100-piece limited-edition experimental series is in a league all its own.
INDICATION(S):hours and minutes, small seconds, date
CERTIFICATION(S):Chronometer certificate issued by the COSC
TYPE OF WINDING:self-winding mechanical movement
MOVEMENT DIMENSIONS:Ø 28.80 mm
MOVEMENT THICKNESS:4.95 mm
POWER RESERVE:60 hours
FREQUENCY:8 Hz (57,600 vibrations per hour)
OSCILLATING WEIGHT:heavy metal
BALANCE WHEEL:with four spokes, micro-regulator with screws
DECORATIONS ON MOVEMENT:bridges adorned with Côtes de Genève, circular-grained mainplate
NUMBER OF MOVEMENT PARTS:204
CASE DIMENSION(S):42.00 mm
CASE THICKNESS:11.20 mm
DIAL:slate silver dial with a black small seconds counter at 7 o'clock and luminescent hands.
FRONT GLASS:glareproofed scratch-resistant sapphire crystal
CASE-BACK:see-through sapphire crystal
STRAP:black alligator leather strap (matt square plate) with hand sewn matching tones , lining: alligator brown
BUCKLE TYPE:pin buckle
The L.U.C Caliber 01.06-L is the first ever movement with a high-frequency escapement to be chronometer-certified by the COSC. Beating at a frequency of 8 Hz, meaning 57,600 vibrations per hour, this mechanical movement was... conceived, developed and perfected by Chopard Technologies in Fleurier. In addition to ensuring greater reliability, high frequency – which naturally requires more energy – is in this instance associated with a remarkable 60-hour power reserve generated by a single barrel. In terms of materials, the engineers at Chopard Technologies decided to work with silicon for certain escapement components (impulse-pin, lever, escape wheel) and developed a new means of fixing silicon on steel (patent pending).