Friday, September 25th 2015

Thermaltake Pacific Series Radiators Now Available

Thermaltake, an industry leader in computer chassis, thermal solutions, and power supply units, launches the full range of Pacific RL and R Series radiators. Designed for the most demanding and hardcore enthusiasts, the Thermaltake Pacific RL & R Radiator Full Series is optimized for maximum heat dispatching. The radiators are designed without compromise, with high-quality German aerospace-grade materials and constructed with zinc, a powerful anti-corrosion agent.

An exceptional manufacturing process using high temperature brazing at 1022℉/550℃ sets Pacific Radiators in a class of their own. Integrated G1/4" threads make it easy to install, while rigid connections ensure they are leak-resistant. With an ideal mounting, fitting, flow set-up, and 17 different specs to choose from, the Thermaltake Pacific Radiator Full Series is guaranteed to go above and beyond your current cooling standards.
Differences between Pacific RL and R Radiator Full Series
The Pacific RL Series is an ultra-thick radiator (over 50mm thickness) with a dual-row 13-set flat tube design to increase heat transfer. Water flows down on one side, and then passes through the bottom chamber before being circulated back to the other side of the radiator. Choose from: 120mm, 140mm, 240mm, 280mm, 360mm, 420mm, 480mm, and 560mm radiator lengths to provide easier fitting installation and loop management. Also, the Pacific RL120, RL240, RL360 are available in white. The Pacific R Series is a slim radiator (under 50mm thickness) with only a single 13-set flat tube design This series is available in 120mm, 180mm, 240mm, 360mm, and 540mm sizes and is guaranteed to provide exceptional performance in a slimmer, sleeker design.

Optimized Heat Dispatching
The Pacific Radiator Full Series delivers an average heating load of 32℃-35℃ on each radiator. After brazing, the fin and tube connect to form a joint, thereby creating more uniform heat transference. By efficiently pulling heat away from the power-dissipating components, the radiators ensure component reliability.

High-Density Fin Design
Fin density is optimally designed to accommodate high air pressure. The cooling performance improves significantly with increased fan speed, offering exceptional cooling performance during operation.

German-Made Anti-Corrosion Materials
The radiators are designed to reduce electronic conductivity and can withstand scratches to the zinc layer. The corrosion potential of aluminum alloy combined with zinc is reduced by 55.6% after brazing.

High-Quality Manufacturing Process: Brazing
The radiators are baked through a controlled-atmosphere brazing line. The materials melt into each other to achieve optimal thermal transfer from the tubes to the actual fins in order to attain better overall heat evacuation and dispatching.

Remarkable Expansion
The Pacific Radiator Full Series comes in multiple sizes in order to provide users the ability to build the ultimate in custom configurations. A wide array of radiator sizes are available for enthusiasts to build up aesthetically-superior water cooling systems by allocating the radiators to each particular component and incorporating external modular upgrades for their chassis.
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8 Comments on Thermaltake Pacific Series Radiators Now Available

#1
Steevo
Are the chambers connected, there was quite a debacle over MFG's allowing coolant to go through a passage in the chambers to achieve higher flow ratings at the expense of temps, hot water would move across to the cold side.
Posted on Reply
#2
MT Alex
I would hope that they have some lower density fin designs, as well. If not these look to be the modern day GTX's.
Posted on Reply
#3
bogami
Aluminium not Copper. Dont mix copper with aluminium.
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#4
boulard83
As other told, ALUMINIUM .... fail TT, FAIL !
Posted on Reply
#5
ypsylon
You have to be utter .... to even consider aluminium radiators for liquid cooling. Another Fail in a long line of TT fails.
Posted on Reply
#7
_larry
Aluminum corrodes at a much slower rate than copper.
Posted on Reply
#8
HumanSmoke
_larryAluminum corrodes at a much slower rate than copper.
That isn't the issue. The issue is introducing dissimilar metals and heightening the rate of galvanic corrosion. Adding aluminium into a system that already has Copper or Nickel plated copper waterblocks just accelerates the corrosion process - which is why GOOD radiators use the same materials as the blocks, or a more compatible alloy like brass for areas where copper may be prohibitive such as radiator end tanks.
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