New Ultrasound Technique Finds Flaws Hidden From the Naked Eye

Hall Spars have pioneered and developed expertise in the application of a medical-grade solution to the service of masts and booms; uncovering flaws that may escape the naked eye. The utilisation of ultra sounding enables technicians to find voids and wear in areas of high stress or delaminating from damage or impact. A visually striking understanding of a product and its current state is gained, interpreted and presented to a client. When service has been undertaken and completed, a further ultrasound test is undertaken to evidence that all flaws have been rectified leaving you ready to go further, faster, longer.

"With ultrasound testing technology we can accurately determine the structural integrity of any monolithic laminate with no destruction of the existing laminate" says Hall Spars head designer Matthew Stuart. "It also gives us the option to map out the composite spars before they leave the shop to give us a reference for any future inspections."

To find out more, email: m.stuart@hallspars.com

Hall Spars Launch Sail Battens at METS

Hall Spars and Rigging's hollow composite battens set a new benchmark in mainsail shape control at Marine Equipment Trade Show in Amsterdam, NL. With considerable interest and a raft of orders already secured for the high quality pre-preg carbon fibre battens manufactured in custom solid aluminium female tooling using 6 bar of pressure, Hall Spars is set to take ownership of a new market. A full range of end fittings is offered; from soft sail furling to batten receptacles, lashing outboard ends to adjustable outboard or inboard ends with screw adjusters. 

Please email: battens@hallspars.com to enquire or order your new set of state of the art battens.  

Hall Spars expand ground presence in Australia through key local hire

Hall Spars, makers of high-performance spars and rigging, have demonstrated their commitment to support and growth of the Australian market through the recruitment of Sydney based yachting veteran Ron Jacobs.

“At Hall Spars we are focused on delivering outstanding customer service and we saw an opportunity to further support our clients in-country” says Garry Hassall, Managing Director of Hall Spars and Rigging NZ.

“In Ron we have found a highly experienced, technically capable representative whose depth of industry knowledge and relationships speak for themselves. An oft crowned sailor himself, Ron blends a core understanding of client needs with an extensive background in project management.”

Jacobs’ marine experience spans 40 years of both professional and personal involvement with high performance craft. This has included a rewarding career with Sydney based loft Fraser Sails to project managing some of the most successful race winning yachts in Australian history including Sagacious, Beyond Thunderdome, “97”, Quest and Exile. Ron’s personal successes include multiple outright wins at Hamilton Island Race Week and the Sydney to Hobart Yacht Race.

A qualified engineering draftsman, Jacobs has also represented Australia at various local & international Half and One Ton Cup regattas since the ‘70’s. This has informed an intimate and highly developed understanding of what makes a boat go faster both in theory and practice.

"My history with Hall Spars dates back to 2007” says Jacobs. “I have raced onboard many yachts with their high-performance autoclave-cured carbon fiber spars over that time and formed a close working relationship with the team in recent years on several projects”

“The (spars) proven capability on everything from America's Cup and Grand Prix race yachts to the largest luxury sailing vessels in the world is testament to Hall Spars world class technical skill and products. I have every confidence in the product range and I'm looking forward to working on the ground with our Australian clients to ensure they get the best in service and support."

Hall Spars New Zealand at Monaco Yacht Show

Hall Spars New Zealand's Managing Director, Garry Hassall, will be at the Monaco Yacht Show between the 23 - 26 September 2015. To arrange a meeting, please contact him on:

Tel. 0064 (0) 21 72 0094
Email. g.hassall@hallspars.com

We look forward to seeing you there! 

Production is booming at Hall Spars NZ

Hall Spars New Zealand has battened down the hatches as August 2015 brought further news of heightened production at their cutting edge Auckland facility in the shape of 4 new custom built Oceanfurl booms for the Oyster 825-05 and 825-06, a Hill 20-metre and Dubois 37-metre.

Sophisticated and functional, demand for Oceanfurl booms from the premiere builder of high-performance spars and rigging is continuing to grow with more construction set to begin later in the year. With a carbon fibre prepreg nomex cored design and streamlined carbon-fiber body and furling mandrel, these stalwart booms are extremely lightweight without compromising on safety or convenience. Drive options include hydraulic, manual or electric (for smaller booms) and the Oceanfurl can be reefed or furled when sailing at deep angles, improving comfort in all conditions.

Andy Sheltrum, Captain of Dubois 37m S/Y Bliss, says "We have used our Oceanfurl boom for over 5 years; racing in regattas and ultimately completing over 80,000 miles. The boom works as well today as it did when it was new. The large furling angles and electronic luff adjuster makes single person operation a breeze."

Hall's innovative 2015 range of Oceanfurl tooling utilises a precision single cook process in which the shell of the boom, flush ring frames, stiffening, patching and the shelf are co-cured in their custom aerospace grade autoclave; removing the requirement for secondary bonding and dramatically increasing the structural integrity of the boom whilst saving overall weight and driving performance. 

A new 2015 slim-line shape sees a greater taper and smaller aft end creating the sleekest profile possible. The front end has been re-modeled and is capable of open-front or traditional closed-front boom options.

This same level of attention to detail is reflected in the finishing with the fitting of dimmable recessed white or warm LED lights over consoles and guest seating areas as well as an integral boom cover with the option for hidden awning tracks.

Oceanfurl booms have a large size range with the very economical 50ft range to the very elegant 50m range used on boats like the Wally 50m Better Place. They can be retrofitted to any mast and operation is a breeze with manual or automated controls.

Our new design can be seen here on this beautiful Oyster 825 Maegan:

Get a behind the scenes look at how our Oceanfurl booms are made here:

The catamarans are coming

The Hall Spars' Auckland factory has all hands on deck at the moment with two catamaran masts underway. 

Combining luxury and speed with a classic design aesthetic, a Schionning 60 is due to make waves in Australia. The Schionning 60 will feature a high modulus Hall Spars seamless mast and raising wing boom for stowage of the mainsail when at anchor. 

Also under construction, a Roger Hill 20-metre is slated for September launch. The Roger Hill 20-metre has a seamless high modulus, rotating wing mast and Oceanfurl boom to enable full sail control from the cockpit.

Designed by engineers who are experienced sailors and constructed utilizing Hall’s proprietary Seamless carbon fiber process, the masts are cured to 6 times atmospheric pressure in an aerospace grade autoclave. Combining high-performance, style and toughness, the completely homogenous tubes deliver maximum structural reliability and save impressive amounts of weight. 

Upon completion, a Hall rigging technician from the international service team will be on site for stepping, dock tuning and sail trials, ensuring a perfect match between mast and sails.  

Hall Spars has specialty catamaran mast sections and specific multihull engineering programs designed to get the most out of your multihull, both in terms of safety and performance.

Dave Ridley, Hall Spars NZ Operations Manager, says, “Multihulls are a fast growing sector of our business.  We have devoted a large amount of resources into ensuring our engineering software and manufacturing processes are suited to the complex pitching and rapid spike loadings involved in multihulls. We have a range of sections available to best match your fixed or rotating mast with a range of high performance moduli of carbon that enable us to reduce the all-up weight and pitching of the boat. Both of these factors vastly impact a catamaran's performance and comfort in racing and cruising.”

Catamaran mast manufacture underway at Hall Spars Auckland

Mills 45 High Performance Now Under Construction

We've just begun construction on a high-performance Mills 45 race boat mast at our Auckland factory. With a mast made out of ultra high modulus and fibre that is .15 of a millimetre thick for specific laminate placement, optimal stiffness and weight reduction, this, combined with Hall's seamless technology, is set to give the best performing mast tube available.

Upgrade your performance

For boats looking to gain a performance edge, your mast is a good place to start for weight and righting moment gains. Boats Like the KC44 Swish in Sydney, carrying new high modulus spreaders, are seeing gains with simple equipment changes that deliver on the course. Improve your boat's performance in small increments without breaking the bank by trying a carbon forestay or rigging set, spreaders, backstays, running rigging or boom as a great way to lighten the boat. Ready for a new mast or upgrade? 

 

Slots for 2015 are almost 100% taken with only very limited positions available. If you are thinking of purchasing a mast, please get in touch with Dave or Garry to book your build slot for 2016.
Email Dave
Email Garry 

Swish shows what she can do on the water. Photo courtesy Howard Wright

Swish shows what she can do on the water. Photo courtesy Howard Wright 

The Seamless Process of Hall Spars & Rigging

“For me, there’s only one way to do things­ – the ‘best’ way. Only the best people, the best tools, and the best materials will give you the best results. And the best way is fluid – it’s always evolving. Every day we’re pushing, testing, and asking questions to ensure that our way is ‘the best.’ When you walk through our factories, you can see and feel our commitment to innovation everywhere you look. Whether it’s an engineer in the shop discussing a new idea with the carbon fabricators or one of the foremen evaluating a new tool, there’s a feeling of total involvement. We’re all working to build the best spar that we can build . . .  the best spar anyone can build.”

                              -Eric Hall, president

The Best Way to Build a Carbon Mast

Experience is the most important tool in composite construction. Experience translates into unmatched laminate quality as well as continued process innovation. At Hall, we’ve worked with carbon since 1984 and autoclave curing since 1992. In fact, Hall is the only mast builder with more than two decades of experience working with carbon.

Over the years, we’ve tested many construction methods. Everything we’ve learned has led us to the male-molding, autoclave-curing method. In combination with the Hall molding technique, the autoclave produces seamless, virtually void-free, tubes. Through testing (both our own and independent testing) we’ve proven that the Hall process results in a spar that’s lighter, stronger, and better. This is what led to the initial investment in the autoclave in ’92 and to our acquisition of the two long (40- and 46-meter) autoclaves in our factories today.

In Hall’s process, pre-preg unidirectional carbon fiber is laid up around a shape-optimized mandrel (the male mold). The carbon is applied one layer at a time according to precise engineering specifications. Each layer of carbon is compacted to remove any air bubbles. Then the complete piece is autoclave cured to 6 bar pressure and a temperature of 121° C.  The tube we create on a mandrel is seamless and, due to aluminum mandrel expansion with heat, the fibers are stretched straighter than with any other method. Fiber straightness is basic to advanced composite laminate performance: the straighter the fibers, the stronger and stiffer the laminate. When the mandrel is removed, the tube is one piece of uninterrupted solid carbon. No other manufacturer uses this exact technique.

Mandrel molding, however, is not a simple process. To eliminate the risk of wrinkling on the non-molded surface (in this case, the outer surface of the mast) extreme care is required during the carbon lay-up process. In Hall’s proprietary process, each layer of carbon is carefully compacted before and during the autoclave process to ensure wrinkle-free laminates even in thick-walled tubes.

Mandrel-molded, seamless masts have tooled, smooth inside surfaces. From an engineering standpoint, these surfaces provide highly accurate and predictable areas for mounting close-tolerance computer-machined fittings. And halyards slide smoothly inside the mast.

Aerospace and Formula 1 builders use autoclave curing because of its ability to produce aerodynamically superior shapes. In combination with our proven strength characteristics, a Hall carbon spar is the obvious choice for high-performance applications.

The seamless mast is globally more aerodynamic than masts made using other systems. The key element in rig/sail aerodynamics is the mast’s ability to bend optimally for sail design shape – at minimum weight. Without the baggage of lap joints, glue, screws and filler that masts with full-length seams require, a Hall seamless mast is lighter for equal bending stiffness. Yachts with lighter masts heel less, maximizing sailplan aerodynamic efficiency. We are not restricted by our tooling when it comes to placing strengthening fibers in the laminate – fibers are applied where needed.

Seamless masts have external reinforcements (internal reinforcements would inhibit extraction of the mandrel and inhibit proper fit of internal fittings). Wherever there is a tang, spreader fitting, or hound box, there are external reinforcements (doublers). Do they add drag? Computational Fluid Dynamic (CFD) studies show that such doublers increase mast section drag (without sail) by only hundredths of a percent. When the same section is attached to a sail, the drag increase is virtually immeasurable. Compared to the very measurable benefit of the lighter masts that have them, these doublers are a non-issue.

Our shape predictions in pre-preg laminates are extremely accurate; even with thick laminates, predictions are accurate to tenths of a millimeter. The surfaces are so smooth that we’re able to apply a clear-coat finish to the surface with no weight-adding filler.

What you see through the remarkably accurate and aerodynamically smooth finish of a clear-coat mast tube is the fascinating array of the structural fibers themselves. In addition, seamless masts have an unbelievably good track record. The combination of autoclave curing at 6 bar pressure and profile homogeneity creates extremely tough mast tubes. We invite you to visit either of our factories and see our process. We guarantee that you’ll agree – for tubular structures, nothing beats Hall seamless. 

Benefits of the Hall Seamless Carbon Tube

• Weight: The Hall construction method eliminates the need for any glue, screws, or filler. Therefore, Hall’s engineers can accurately predict the weight of each mast before it’s built.

• Strength: Our obsession with compacting each layer of carbon means the tube is virtually void-free. Mandrel molding ensures that the fibers are perfectly straight—straight fibers are essential to carbon strength.

• Stiffness: Again, because the piece is homogenous we can accurately predict (and create!) optimum stiffness characteristics throughout the spar.

• Aesthetics: Hall’s careful process results in a tube so smooth (even though the exterior is not the molded surface) we can beautifully clear-coat our spars. We use woven fabric as accent material, giving the spars a beautiful finish.

• Aerodynamics: Each mandrel is shape optimized by Hall engineers, using advanced FEA and solid modeling tools. The laminate matches this shape exactly, and the resulting tube is perfectly smooth and presents the optimum aerodynamic shape.

• Added bonus: The inside of the tube is perfectly smooth. Halyards run freely inside the mast, with nothing to catch or snag.