Wilson Benesch R1

From AUD $20,400.00

Reference Modular Carbon Fiber Hi-Fi Rack

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Developed over many years of extensive research and testing, the R1 is the most advanced Hi-Fi rack system ever developed. Every design detail across the R1 is indicative of the exceptional attention to detail and ‘total engineering’ approach to the product’s design. Each component works in harmony to create an energy management system that draws unwanted structural borne resonance away from sensitive audio components. Modular in design, micro-adjustable in setup, the R1 can be ordered with 2, 3 or 4 tiers and customizable top shelf dimensions. The base tiers can also be customized and ordered as high performance amplifier stands.
The striking monolithic R1 ‘vertical nodes’ are machined and finished in house to a tolerance of 0.02mm. Each level in the R1 rack consists of two vertical nodes, which is assembled from six high mass blocks of polyoxymethylene (POM). The material has been selected for its hardness exceptional damping characteristics. The R1 vertical nodes are cross-linked by elegant carbon fibre ‘Isobars’ which form the support for the marine ply shelves. 14mm steel bars, tied at the ends with precision machined sockets run through the center of the Isobars, compressing them under tons of pressure along their length. This improves the energy transmission pathway along the carbon fibre tube, creating a pathway between the sensitive audio components and the nodes that draw unwanted energy, which would otherwise manifest as resonance in the audio components, away and into the nodes that absorbs and dissipates the energy.

Elegant examples of these highly optimised energy pathways can be seen across the R1 design. At the interface between the carbon fibre Isobar and the marine plywood shelf, Wilson Benesch have designed fluted cups that are precision machined to create two points which meet with the carbon fibre. Each R1 rack interfaces with the next by four huge 500g chrome steel spheres that locate kinematically with four sockets on the adjoining R1 rack. The interface creates an assured feel to the whole design; there is a palpable feeling of precision when placing each R1 rack onto the next. But the nodes are a functional design element, the nodes legislate that tons of pressure is focused equally through the four nodes.

The R1 is fitted with four ball bearing tipped spikes kinematically located into four floor cups holding captive three ball bearings to create the final energy node.

So what does all this engineering and precision contribute to your system?

It has been often documented that resonances (vibrational energy) seriously affect the performance of audio components. Resonances of various frequencies can be transmitted from the ground up through the rack, or from the air as the system loads the room with sonic vibrations or can originate from the components themselves. Virtually all manufacturers of amplifiers, digital sources, turntables and even cables have expressed that you cannot really hear what a component is capable of sounding like unless it is isolated from these harmful resonances. Therefore in a high-end audio system, careful attention must be paid to optimising each component via isolation.

Many audiophiles have taken the common path of making a serious financial investment in their choice of electronics, source components and cables but then not experiencing the true potential of their system until they invested in a high performance rack system. This quantum leap in performance is what the R1 can deliver, and this is where this engineering and attention to detail comes to the fore. Invest in a R1 and unleash the potential of your system!

Wilson Benesch R1 RackWilson Benesch R1 Rack


Wilson Benesch R1 Rack Diagram


Extending the principles of kinematic location, Wilson Benesch developed a ball and socket joint for the interface between each R1 level. Four 500g chrome steel spheres couple and locate kinematically with four sockets on the adjoining R1 level to restrict all six degrees of mechanical freedom. Each R1 level is therefore a single damping element in itself, consisting of advanced engineering materials and highly engineered components.


Precision machined in-house, each upright of the R1 rack is assembled from multiple sections of polyoxymethylene (POM), a dense, high-performance engineering polymer. POM has a regular crystalline structure that results in a material hardness equivalent to aluminium. This property permits the high precision machining required to achieve the exacting architecture of the R1 upright. However, unlike aluminium which exhibits poor damping characteristics, POM has an inherently high damping coefficient. In addition to a relatively low mass, these material properties make POM a superior material in the construction of the R1. Wilson Benesch mastered the engineering of POM during the development of the Circle 25 Turntable. In this application, POM formed the two plinths of the Circle 25, forming a structure with high stiffness, mass and excellent damping characteristics to significantly improve the performance of the Circle 25 Turntable.


Wilson Benesch have applied the principle of mutual self-damping within designs for many years. The concept of using multiple materials with different damping characteristics in one composite structure allows each material to absorb and damp the natural resonant frequency of another material in the system. Pushing this concept further, Wilson Benesch have sought to elevate the natural resonant frequencies of structures wherever possible, since a structure with a high resonant frequency is more easily damped. The Wilson Benesch R1 Hi-Fi Rack employs both of these principles within its design. The addition of a 14mm steel bar at the centre of each cross-member clamps the carbon fibre tube. This damps the very high resonant frequency of the carbon fibre cross-member. In turn the tube terminates at precision-machined bright nickel-coated steel cups that are secured to the high-grade POM rack by M14 nuts. The result is a phenomenally stiff structure constructed from several materials that mutually self-damp other another. This ensures that any structural borne resonance within the R1 structure is not transferred to the high-end components residing upon the system.


The beautifully machined form of the shelf cups are a direct output of their function. At the tips of the cup the form takes on the shape of the carbon fibre tube to create a perfect interface between each structure. This not only provides robust stability, but also focuses the contact point to a small surface area. Again the critical concern with the design is to focus energy flow through a tiny point to optimise and manage the flow. This also aligns the force entering the bar, each at 60 degrees from vertical, or 120 degrees diametrically opposed from each other


In each R1 tier, two multi-axial carbon fibre tubes act as cross members between the uprights to form the fundamental structural elements. Since these cross members have principle responsibility for supporting the high-end audio components, their role is critical in dictating the flow of energy from each audio component into the surroundings and into each other, as well as from the surroundings to each audio component. If an ideal material solution for this component was to theorised, an engineer would specify a material that exhibits high stiffness, high strength and, perhaps most fundamentally, a material with a high damping coefficient.
The phenomenal stiffness, strength and damping characteristics of carbon fibre are well documented. Moreover, the following remarkable calculation attests to the suitability of this element for the R1 design in terms of carbon fibre’s load bearing capacity: With a total mass of 200g, each carbon fibre tube used in the R1 rack is capable of withstanding a theoretical axial load of 5 tons. This equates to 25000 times its own mass. To put this in perspective, this is the equivalent of a 13-stone (182lbs) human being able to support a load of 2300 tons!


Simple, understated but highly effective, this natural material possesses innate damping characteristics that compliment the rest of the R1 design. The multi-layered Birch ply provides damping across a broad bandwidth, while adding important aesthetics cues that perfectly compliment the R1’s robust, highly engineered POM uprights, nickel plated steel caps and the luxurious aerospace carbon fibre cross-members.

Wilson Benesch R1 RackWilson Benesch R1 Rack


Wilson Benesch R1 Rack dimensions for 4 tier

Wilson Benesch R1 Rack dimensions for 4 tier

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