RM 050 TOURBILLON SPLIT SECONDS COMPETITION CHRONOGRAPH FELIPE MASSA 550.72A.91A
Richard Mille RM 050 TOURBILLON SPLIT SECONDS COMPETITION CHRONOGRAPH FELIPE MASSA 550.72A.91A Watch: This watch features manual winding tourbillon movement with hours, minutes, split-seconds chronograph and power reserve, torque and function indicators.
Herald at their intial release in 2001 as a break from the past and a new direction of horology, the wristwatches of Richard Mille were from their very inception, extraordinary and uncompromising.
TECHNICAL SPECIFICATIONS OF THE TOURBILLON SPLIT SECONDS COMPETITION CHRONOGRAPH RM 050 FELIPE MASSA
Limited edition of 10 pieces in carbon nanotubes.
CALIBER RMCC1: manual winding tourbillon movement with hours, minutes, split-seconds chronograph and power reserve, torque and function indicators.
Dimensions: 50.00 mm x 42.70 mm x 16.30 mm.
MAIN FEATURES
POWER RESERVE
Circa 70 hours (displayed on a numeric scale to the left of the barrel).
SKELETONIZED TITANIUM BASEPLATE
The baseplate has been finished in grade 5 titanium, a biocompatible, highly corrosion-resistant and remarkably rigid alloy, which enables the gear train to function effortlessly. The alloy is 90% titanium, 6% aluminium and 4% vanadium. This combination further increases its mechanical properties, which explains its frequent use in the aerospace, aeronautical and automobile industries. The baseplate of the calibre RMCC1 has been optimised to achieve an extreme weight/resistance ratio. The skeletonized baseplate and the bridges have been subjected to intensive and complete validation tests to optimize their resistance capacities.
CHRONO COMPETITION MOVEMENT
The RMCC1 movement is inspired by the tourbillon caliber with split-seconds chronograph from the RM 008. Released in 2004, this caliber has established itself as one of the most complex in the world thanks to its tourbillon movement operating a split-seconds chronograph. The caliber RMCC1 is not just a simple exercise based on the movement of the RM008: Richard Mille’s engineers spent several months reducing the weight of the caliber. This is a delicate operation when you consider that the weight of the caliber RMCC1 has been cut by 20% compared with the RM 008 to bring it under 10 grams. This required the reworking and manufacture of over 400 parts in the movement. At the same time, our engineers have optimized this movement to the maximum, particularly in terms of its time-measuring precision and long-term reliability.
CHRONOGRAPH (column wheels in titanium)
The modern architecture of this new movement has allowed for a coherent and rational arrangement of each constituent part, avoiding unnecessary complexity and permitting the best possible use of the functions with technical solutions. For example, research was conducted into the geometric design of the column wheels that control the different levers in order to ensure the perfect, long-term, stable and simultaneous functioning of the chronograph mechanism, a feature that is essential for a high performance chronograph.
Operation: the chronograph function is stopped and started via the pusher located on the lower left at 8 o’clock. The hands are reset by pressing another pusher located on the upper left at 10 o’clock.
TOURBILLON SPLIT SECONDS COMPETITION CHRONOGRAPH
SPLIT SECONDS MECHANISM WITH IMPROVED PERFORMANCE
One of the new characteristics developed for the split seconds Competition Chronograph RM 050 Felipe Massa is the virtually complete elimination of initial jumping in the chronograph seconds hand. Moreover, the development of a new generation of split seconds components meant that energy consumption of this function could be lowered by approximately 50 % through the reduction of friction on the spindle and the chronograph hands jumping when stopping is virtually eliminated. This was achieved by research that focused on the working of the split seconds’ arms.
Operation: By depressing the pusher on the right at 4 o’clock, the user can stop the split seconds hand in order to read an intermediate time while the chronograph is engaged. Pressing the pusher again allows the split seconds hand to rejoin the chronograph, ready for the next measurement.
TORQUE INDICATOR
Supplies information about the mainspring’s tension, thus permitting the optimalization of the chronometric functioning of the movement. Below 53 dNmm, the spring is considered to be too slack, while above 65 dNmm, the excessive spring tension can adversely affect the mechanism’s operation, or else actually endanger it. (These indications appear on the numerical zone to the right of the barrel).
FUNCTION INDICATOR
In a manner similar to a car’s gearbox, the function indicator allows one to see the winding, neutral and hand setting positions as the crown is pulled out. Each position is indicated via a hand at 4 o’clock displaying the following functions: W (Winding) – N (Neutral) – H (Hands).
BALANCE WHEEL WITH VARIABLE INERTIA
This type of balance wheel, which represents the ultimate in innovation, guarantees greater reliability when subjected to shock and also during assembly and dismantling of the movement, thus achieving better chronometric results over time. The index is eliminated, thereby allowing a more precise and repeatable adjustment using 4 setting screws.
FAST ROTATING BARREL (6 hours per revolution instead of 7.5 hours)
This type of barrel provides the following advantages:
• The phenomenon of periodic internal mainspring adhesion is significantly diminished, thereby increasing performance,
• Provision of an excellent mainspring delta curve with an ideal power reserve/performance and regularity ratio.
BARREL PAWL WITH PROGRESSIVE RECOIL
This device permits an appreciable winding gain (circa 20 %), especially during the start of winding. It also aids in the even distribution of the mainspring’s internal tension.
WINDING BARREL TEETH AND THIRD-WHEEL PINION WITH CENTRAL INVOLUTE PROFILE
The wheel with a central developing profile and a pressure angle of 20° promotes rolling movement More effectively, compensates differences between centers, ensures excellent torque transmission and a distinct improvement in performance.
MODULAR TIME SETTING MECHANISM FITTED AGAINST THE CASE BACK
Provides the following advantages for longevity and maintenance:
• Since the component is mounted outside of the movement, the time setting assembly can be changed without affecting the integrity of the baseplate in the event of a possible defect or during maintenance,
• The mounting and dismantling of this module from the back will not require the removal of the hands and the dial.
SPLINE SCREWS IN GRADE 5 TITANIUM FOR THE BRIDGES
This permits better control of the torque applied to the screws during assembly. These screws are therefore unaffected by physical manipulation during assembly or disassembly and age well.
EXTREME FINISHING FOR THE MOVEMENT
Watchmaking expertise can be found throughout the caliber RMCC1, with drawn, polished, satin Finished and soft polished surfaces all created by hand. For example, take the complex shape of the tourbillon and barrel bridges in microblasted stainless steel with their visible and non-visible areas that are completely soft polished. Other parts, such as the barrel drum, the minute wheel and the small and large medium wheel are circular grained both above and below then hand-beveled and rhodium plated before the teeth are cut. The various yokes of the caliber RMCC1 are straight-grained, sanded on both sides and soft polished. This range of finishes also provides technical solutions to optimize the Chrono Competition movement.
OTHER FEATURES
• Movement dimensions: 32.00 mm x 36.70 mm
• Thickness: 7.53 mm
• Tourbillon diameter: 12.30 mm
• Balance wheel diameter: 10 mm
• Number of jewels: 35
• Balance wheel: GLUCYDUR, with 2 arms and 4 setting screws
• Moment of inertia 10 mg.cm2, angle of lift 53°
• Frequency: 21,600 vph (3 Hz)
• Central bridge in aluminium
• Balance spring: ELINVAR, by NIVAROX
• Shock protection: KIF ELASTOR KE 160 B28
• Barrel shaft in nickel-free Chronifer (DIN x 46 Cr 13 + S), with the following characteristics: stainless –
• non-magnetic – tempered
CASE
The case of the RM 050 Felipe Massa is made of an extremely robust composite based on injected Carbon nanotubes, a material that perfectly protects the movement and the tourbillon at its center from impacts. Carbon nanotubes are extremely durable (two hundred times stronger than steel) and very light. They are capable of absorbing far stronger impacts than traditional carbon fiber due to their structure with its excellent surface-volume ratio. The case is created by injection molding carbon nanotubes under high pressure into a black polymer. The tripartite case is water resistant to 50 meters, ensured by two Nitril O-ring seals. The case is assembled with 20 Spline screws in grade 5 titanium and abrasion resistant washers in 316L stainless steel.
SPLINE SCREWS IN GRADE 5 TITANIUM FOR THE CASE
This permits better control of the torque applied to the screws during assembly. These screws are therefore unaffected by physical manipulation during assembly or disassembly and age well.
TORQUE LIMITING CROWN
This added security system prevents accidental overwinding of the watch, the result of which cancause damage such as breaking the winding stem or putting too much pressure on the barrel spring.
INTERIOR FLANGES (outer and inner)
In DLC-coated titanium with hour index points filled with an approved luminescent material.
DIAL
In sapphire (thickness: 0.40 mm) with anti-glare coating (both sides), protected by 8 silicon clamps inserted in the outer and inner grooves.
CRYSTAL
• Bezel side: in sapphire (1,800 Vickers) with anti-glare coating (on both sides).
• Thickness: 1.50 mm
• Case back: in sapphire with anti-glare coating (on both sides)
• Thickness: 1.20 mm in the centre and 2.04 mm at the outer edges
FINISHING
MOVEMENT
• Hand-polished bevelling
• Hand-polished locking-sections
• Microblasted milled sections
• Lapped and polished contact points
• Burnished pivots
STEEL PARTS
• Wire-drawn and microblasted surfaces
• Hand-polished bevelling
WHEELS
• Concave chamfering with a diamond tool
• Circular-decorated faces
• Gilding (before cutting the teeth)
• Minimal corrections to preserve the geometry of the wheels and their performance