Michael Chusid
Building Safety
Building Safety

New Products

Marketing with MasterFormat

As building product manufactures develop products to meet new needs in the construction industry, they should understand how their products fit into the MasterFormat. When necessary, manufacturers should not hesitate to propose changes to the standard.

MasterFormat is the construction industry's standard for organizing construction-related information according to "work-results" based on construction practices. It is used to organize construction specifications, cost information, and building operations and maintenance information. Modifications can be proposed by users to keep the standard up to date and responsive to industry needs.

For example, I proposed the following changes that have been added to MasterFormat in the most recent update cycle:

09 78 19 Cementitious Interior Wall Paneling

09 78 23 Phenolic Interior Wall Paneling

13 19 19 Animal Washing Tubs

26 01 40.13 Operation and Maintenance of Lightning Protection Systems

32 18 23.63 Equestrian Surfacing

Additional information is at www.masterformat.org.

A robot in your tool belt?


New tools often lead to new building materials that can optimize the benefits of the new technology. How will you be able to benefit from the emerging tool technology of hand held robots?  Here is a report on recent research:
Researchers develop intelligent handheld robots
What if handheld tools know what needs to be done and were even able to guide and help inexperienced users to complete jobs that require skill? Researchers at the Univ. of Bristol have developed and started studying a novel concept in robotics—intelligent handheld robots.
Historically, handheld tools have been blunt, unintelligent instruments that are unaware of the context they operate in, are fully directed by the user, and critically, lack any understanding about the task they are performing.

Dr. Walterio Mayol-Cuevas and PhD student, Austin Gregg-Smith, from the Dept. of Computer Science, have been working in the design of robot prototypes as well as in understanding how best to interact with a tool that “knows and acts”. In particular, they have been involved with comparing tools with increasing levels of autonomy.

Compared to other tools such as power tools that have a motor and perhaps some basic sensors, the handheld robots developed at Bristol are designed to have more degrees of motion to allow greater independence from the motions of the user, and importantly, are aware of the steps being carried out. This allows for a new level of co-operation between user and tool, such as the user providing tactical motions or directions and the tool performing the detailed task.

Handheld robots, aim to share physical proximity with users but are neither fully independent as is a humanoid robot nor are part of the user’s body, as are exoskeletons. The aim with handheld robots is to capitalize on exploiting the intuitiveness of using traditional handheld tools while adding embedded intelligence and action to allow for new capabilities.

Dr. Mayol-Cuevas, Reader in Robotics Computer Vision and Mobile Systems, said: “There are three basic levels of autonomy we are considering: no autonomy, semi-autonomous when the robot advises the user but does not act, and fully autonomous when the robot advises and acts even by correcting or refusing to perform incorrect user actions.”

The Bristol team has been studying user’s task performance and user preferences on two generic tasks: pick and drop of different objects to form tile patterns, and aiming in 3-D for simulated painting.

Austin Gregg-Smith, a PhD student who is sponsored by the James Dyson Foundation, added: “Our results indicate that users tend to prefer a tool that is fully autonomous and there is evidence of a significant impact on completion time and reduced perceived workload for autonomous handheld.  However, users sometimes also expressed how different it is to work with this type of novel robot.”
The plans for constructing the robot on a 3D printer can be downloaded.

I am quite sure, however, that there will also be a need for manual hammer, screw driver, knife, shovel, trowel, and pliers, and also the trained mechanics that know how to use them. At least, I hope there will be; otherwise we can all pack up and collect unemployment.

Source: Univ. of Bristol via rdmag.com, 05/27/2015

More info: http://handheldrobotics.org/

Cruise Ships: a Building Product Market

It could be time for you to put to sea as the cruise ship industry continues to grow. From 2015 to 2016, 17 more new cruise ships will come online, with more to follow.
Many of these are gigantic vessels capable of carrying thousands of passengers plus crew, dwarfing existing craft.
It is probable that vessels will grow in size until they are better compared to small cities or at-sea resort towns that do not put into port but will be tended by smaller ships and aircraft landing on the top deck.

The cost of the structural, motive, and infrastructure systems of these vessels is enormous, and require innovative construction techniques such as this covered dry dock.

The investment in facades, furnishings, lighting, decor, equipment, elevators, and other "building products" will be similarly titanic. Many are replete with shopping, theaters, dining, fitness facilities, and accommodations that would make a Las Vegas hotel seem modest in comparison.

More, older ships will be refurbished to compete.

While there will always be cramped interior cabins and crew quarters, there is also a focus is on elegant suites for those with the resources.

One reason for this tread is that rising sea levels make investment in coastal resorts a risky proposition.  This accounts for the interest in floating platforms that are not necessarily designed for cruising. As population distributions shift in response to global warming, the platform can be towed to more attractive locations.

Beyond the recreational market, plans -- both serious and theoretical -- are underway for floating cities. Part of the appeal is the perception that these private islands are havens from social unrest, regulations, ecological apocalypse, and taxation.

At the (somewhat) smaller end of the spectrum, many personal yachts are now being supersized, as this recent design by Zaha Hadid suggests.

Her's is not the only A/E/C firms have entered the market. They also are active in the development of ports and landside facilities in emerging markets and to accommodate larger ships.

Some terminals will become destinations in their own right with profound implications for the future of travel, conventions, business meetings, and more.

SO NOW WHAT?

Contrary to the maxim, a rising tide does not float all ships, only the businesses that are prepared.

This is a competitive global market. Many existing architectural products will require modification (or at least additional testing) to prove seaworthy. The decision making process, buyer behavior, contractual and legal implications, and many other business factors are different than land based construction.

Call me to discuss your strategy launching into this growth market. 

Michael Chusid
+1 818 219 4937
michael@chusid.com

Construction Chart Book, 5th Ed.

The Construction Chart Book: The US Construction Industry and Its Workers 5th Edition, (2013), a free download, is a valuable resource for building product executives. Published by The Center for Construction Research and Training*, it is a trove of information about construction industry employment demographics and trends. While most useful, perhaps, for economists, insurance companies, safety officers, and policy makers, it contains nuggets that can help you digest new product opportunities and paths to market.

Consider the following from the Main Findings of the report, with my comments:

About 80% of construction payroll establishments had 1 to 9 employees.
You surely don't have time to send sales reps to these small firms, so your marketing communication or distributors better find a way to reach them.

About 12% of construction firms used day laborers; 22% of employer firms had no full-time employees on their payroll, and 8% hired temporary workers through temporary agencies.
With a transient work force, you better support your customer by offering products that are simple to use and hard to screw up, and training programs that can be given quickly on the job site.

Construction employment is expected to grow by 1.84 million wage-and-salary jobs, or 33%, between 2010 and 2020, more than double the 14% growth rate projected for the overall economy.
Where will all those new employees come from? Beyond normal efforts to build brand awareness among newcomers to the industry, manufacturers should also consider ways to recruit the new work force by training them and creating networks to connect trained installers to potential employers among your customer base. I wonder, however, what effect robotics and construction automation will have on this trend; perhaps not much within 5 years... but after that?

About 2 million construction workers in 2010 were born in foreign countries.
What can you do to transfer brand loyalty across borders?

More than 75% of Hispanic construction workers were born outside the United States.
Your product labels, installation instructions, advertising, and field representatives may need to be bilingual.

Between 1985 and 2010, the average age of construction workers jumped from 36.0 to 41.5 years old.
At some point, the trend will reverse. Are you able to communicate with digital natives?

Union members in construction have advantages in educational attainment, wage and fringe benefits, training, and longer employment tenures, compared with non-union workers.
Look for opportunities to partner with unions for training, etc.

The number of fatal injuries in construction dropped to 802 in 2010 from the peak of 1,297 in 2006. The decrease in recent years was mainly due to the decline in construction employment during the economic downturn.
In other words, fatalities haven't significantly decreased. Everyone in our industry has a moral obligation to improve safety.  How can your product, its packaging, the tools required to install it, etc, create a safer workplace? Make the contractor's chief safety officer your ally.

In 2010, overexertion in lifting caused 38% of the work-related musculoskeletal disorders among construction workers.
Lighter weight material? Improved packaging? Simplified lifting and installation procedures? These are important product enhancements.


* Published by CPWR – The Center for Construction Research and Training, produced with support from the National Institute for Occupational Safety and Health grant number OH009762.

Continuing Education Units at Trade Shows: Why Not?

The three days I spent visiting exhibits at World of Concrete trade show felt like a trip to a major museum or browsing the stacks in a university library; everywhere I turned there was something new and exciting to learn.
At the Loos & Co. booth I was introduced to the different types of wire rope and how they are made. My "teacher" went on to regale me about the history of the product from John Roebling's 19th Century Allegheny Portage Railroad to the latest aviation applications.
Yet I may not be able to count any of my 36+ hours at the show towards continuing education units (CEU) I need to maintain my architectural license or my certified construction specifier status.  The continuing education criteria, established by state licensing boards and administered by AIA and other groups, are complex and impose burdensome paperwork requirements to get courses approved. While CEU can be earned through self-study, the design professional has to substantiate the educational value and an individual's initiative can be denied by regulators.
Cemex and several other organizations conducted a demonstration of roller compacted concrete and discussed quality control measures. While I had read about the technique, seeing it being installed was highly educational.
The educational value went beyond ordinary commercial transactions and networking to become brief master classes taught by the recognized authorities in their particular fields. When traffic in the booth was light, they would gladly spend a few minutes holding forth. The examples on this page are but a few of the many lessons received. Note that many of them would have earned me the more stringent health, safety, and welfare (HSW) credits if they had been presented in an approved course.
A gentleman form Oklahoma Wire and Steel took time to explain that concrete reinforcing is produced in coils. Fabricators either straighten the material and cut it to length, or they fabricate it into stirrups, rings, or the other shapes required on a construction site. Huge machines have largely replaced manual methods of cutting and bending rebar.
Many trade shows have concurrent classes that offer CEU credits. My argument is that this should be expanded to give credits for time spent on the trade show floor. Exhibitors are the financial underpinning of trade shows and want to maximize attendance.So it is in the interest of the building products industry to establish procedure for attendees to earn CEUs while visiting the show floor. Alternatively, show producers or trade association sponsors could take the lead in negotiating this change in CEU criteria.
Even though they knew I was not a potential customer for their equipment, the pair working the Sensocrete booth explained, with great passion, how to improve quality control of concrete.

One can argue that some trade show visitors are more interested in swag or social interactions than in educational benefits. But these same individuals can sit through a lunch time course and get nothing out of it but calories and an unjustified CEU.
Continuing education requirements are based on hour-long classes. Trade show lessons are necessarily brief, but no less powerful It took the rep at BASF only a few minutes to explain how their new "crack-reducing admixture" challenges fundamental assumptions about concrete performance and give me a sizable nugget of knowledge to digest.
The CEU divines differentiate CEU programs that involve face-to-face exposure with a qualified instructor from "distance learning activities" like reading an article or watching an online video. Distance learning activities require students to pass a ten-question quiz to demonstrate that they understand the material presented. Perhaps this model can be used for awarding credit for trade show time; attendees would have to submit a declaration of what they learned at the show. Another approach would be to discount show attendance so that an hour on a trade show floor would be worth only a quarter of a CEU.
A one-on-one master class with an Ward Malisch from the American Society of Concrete Contractors provided an authoritative answer to my question about cement hydration.  Figure above, from NIST, shows "concrete at four different length scales: upper left is concrete, upper right is mortar, lower left is cement paste, lower right is C-S-H." (See earlier post)

Are you ready to mount a campaign to accomplish this? Give me a call so we can plot strategy.

Sponsoring Scholars

Many of the advances in material and building science emerge from academia. Here is how one company seeks to stay at the leading edge and attract talent while generating goodwill for the firm.  The following is from the website of Danzer, an major producer of wood products:

Final dissertation or thesis

Does your final dissertation deal with a topic of interest to Danzer? If so, we can assist you. Danzer will be happy to consider topics that you propose. You will be assigned a mentor from our company who will advise you when required.

Mentors do more than just answer questions related to your topic. They also see to it that you are fully integrated into the company. We will also support you financially while you are working on your paper. Students seeking a career in the wood processing sector should contact us before beginning work on their dissertation.

There are mutual benefits to completing your final dissertation at Danzer. It gives us an opportunity to get to learn you. At the same time, we offer you first hand insight into how our company operates. All doors will be open to you while you are working on your dissertation. And if we can offer you a job, the successful completion of your studies could also mark the beginning of a successful career at Danzer.

10 Trends To Watch - part 2 of 4

Continuing Our 4-part Series on Developing Systems and Methods That Are Shaping the Future of Construction.
(Part 1 appeared on March 20, 2012) 

3. Transparent Aluminum

Aluminum was discovered in 1826, but pure metal was hard to separate from its ore. In 1855, aluminum bars were displayed at the Paris Exposition alongside France's crown jewels, which was appropriate since the metal cost about half the price of gold. 30 years later, an economical process for extracting aluminum was discovered, making it an inexpensive and commonly used metal.

100 years later, transparent aluminum was invented... in the mind of a writer for Star Trek. It was envisioned as a commonly available material in the 23rd century.



Now, 200 years ahead of schedule, several forms of transparent aluminum have already been developed. In one, an immensely powerful X-ray laser knocks electrons out of aluminum molecules, rendering it nearly invisible to extreme ultraviolet radiation. This process is completely impractical in its current form: each laser pulse consumes enough electricity to power a city and the invisibility lasts only about 40 millionths of one billionth of a second.


Transparent aluminum oxynitride, however, is already in use as a replacement for bullet-resistant armored glass laminates. The ceramic material is half the weight and twice the strength of armored glass. It is also twice the cost of armored glass. But that deal-breaker will probably not last long. Aluminum's history suggests that today's "completely impractical" can be tomorrow's "nothing to it."


Recommendation: We used to ask, "How can we solve new problems with existing materials?" The new paradigm is, "How can we solved existing problems with new materials?"  

4. Big Wood
Cross Laminated Timber (CLT) has made the jump across the Atlantic and is now available in Canada from Structurlam and other fabricators. Like plywood, CLT is fabricated into panels with multiple layers of wood, each set perpendicular to adjacent layers. But instead of using thin veneers, CLT uses lumber to create panels that can be five or more inches thick. And instead of commodity 4 x 8 ft. panels, panels are custom engineered and fabricated in sizes limited only by handling considerations; plywood on steroids. 


The panels can create load-bearing walls or decks that are 1/6 the weight and 1/3 the thickness of concrete with similar load-bearing capability. Its building code classification as inherently fire-resistant heavy timber construction, plus its structural properties, makes CLT a viable candidate for mid-rise buildings; indeed it has already been used for nine-story buildings in the UK



Since wood sequesters carbon dioxide and is a renewable resource, CLT has good environmental bona fides. It may become even greener as it enters the US. A team here proposes to assemble CLT with interlocking dovetails, eliminating the need for adhesives.  More, they propose to source wood from dead, standing trees in forests devastated by Pine Bark Beetles. This wood has low economic value, but a vast supply: millions of acres in the Intermountain West are victim of the infestation.

Recommendation: This may affect your business, even if you are not in the wood industry.



5. Think Blue
Climate change has a pernicious effect on the availability of water for human consumption, agriculture, and industry. Consider, for example, communities (and nations) that depend on a steady supply of water from melting mountain snow pack. With glaciers in retreat world wide, melt water can be exhausted before a hot, dry summer is over.  Here are three types of responses.


An alternative water source is atmospheric humidity, and new processes are reducing the energy required for condensing it into liquid water. The new AirDrop system uses photovoltaic cells to power fans that drive air through underground pipes where the air cools, condenses, and is captured. While initially proposed for agricultural irrigation, the same concept should work using the thermal mass of a structure to condense moisture. 


Another source is what is now call "waste water." Global Environmental Technology Services (GETS) has technology for wastewater treatment that is, compared to conventional treatment plants, odorless, takes 8 seconds instead of 20 days, does not use hazardous chemicals such as chloride, and fits on 1% of the land. Their small and fast system may allow water to be treated and reused on site, and to eliminate costs of connecting to a centralized sewage system. 


A third trend to watch is a growing range of products to implement a very old idea: rainwater collection. With our former water abundance challenged and price on the rise, rainwater collection is suddenly innovative.

Recommendation: New products and systems may have to be implemented on a small scale at first.



Watch for Parts 3 & 4 next week

Pace of Innovation

First Polished Precast Concrete Building.
Click here for "Greenwashing does not pay,"

Ten years ago, polished concrete became a practical finish for concrete with the development of chemical densifiers and affordable polishing machines. It is now an is increasingly common for floors.

But what about polished concrete walls?

Five years ago, I predicted the polishing of precast and tilt-up concrete. Yet it has taken until now to see it in practice. A project at Ohio State University, designed by Ross Barney Architects, is being constructed of polished precast panels that reflect light from dichromic glass fins.

New technologies rise and fall on an annual cycle in some industries. But construction product innovations gain market acceptance at a slower pace. Now that one early adopter has taken the step, others will follow; architects watch what their peers do, and are trained to copy (i.e., take inspiration from) the work of others. But will any precasters or manufacturer of concrete densifiers take the lead in promoting the concept?

And for the next five years? Here are some predictions:
  • Polished concrete floors are often stained for color and given ornamental treatment. The Ohio state university columbus ohiosame can be done with polished precast and tilt-up walls.
  • Machinery to polish precast panels in-line during production, rather than as an after process.
  • Precast and tilt-up concrete are polished while panels are horizontal; is it practical to create a polishing machine that creeps up and down the side of cast-in-place walls? (I have a sketch of such a machine if any equipment manufacturer is interested.)
  • There are a few concrete masonry unit manufacturers that already make burnished CMU. I would love to see units with a high polish. They could be set in a wall so that each was at a slightly different angle, creating a wall that would sparkle in sunlight.
For more information about concrete densifiers, see: www.lythic.com and www.adcsc.com.


Changed formulations in building products

An article in January 2011 issue of Consumers Report pointed out the unintended consequences of reformulating a product. According to tests conducted by the magazine, glass baking dishes made in the US have been reformulated. While the new products look the same as the old and generally perform as well under normal use, the reformulated products can shatter and cause injury. This got me thinking about how reformulations effect building product marketing.
Is this old or new Pyrex? New product packaging has safety warnings and handling instructions, but there is no warning on the product itself.

I have always had Pyrex brand glass baking in my kitchen, as did my parents before me. Over the decades, the brand earned a place of trust in my kitchen due to the product's ability to withstood the ordinary wear and tear of household use.

Recently, and without public fanfare, Pyrex brand products were reformulated. Instead of being made with borosilicate glass, they are now made with a less costly soda ash glass. The new products look the same as, and usually perform like. the older models. But I have had newer pieces of Pyrex break during ordinary handling while my older Pyrex products keep on working unless I drop them on the floor.

This reminds me about a story my father-in-law, a dentist, told me about a batch of anesthesia that produced unusual side effects. While the manufacturer insisted the drug was made according to all quality assurance standards, my father-in-law discarded the rest of the batch.  Years later, he learned the manufacturer had finally identified the culprit; the company that made the gasket that sealed each vial had changed its supplier for a lubricant used in the gasket manufacturing process. While the new lubricant met the written performance standards of the previous product, it left a trace contamination that interacted with the chemicals used in the drug.

Continuous process improvement is often touted as a virtue. However, it can become a liability if your customers are not informed about changes. Failure to notify customers can lead to increased product failures when someone assumes the new formulation will work just the same as the old one. Equally insidious is damage to your brand's reputation. My father-in-law found a new vendor and stayed with it for the rest of his career. And even if Pyrex resumes manufacturing of borosilicate products, I will probably remain skeptical, preferring to buy the old stuff in second hand stores than take a risk with an unknown product.

In construction
Product reformulations occur frequently in the construction industry, and usually without the knowledge of the specifiers or builders using the product. Indeed, reformulations often result in superior and more affordable products. But not always.

New products will always lack something that older products offer: the test of time. An old-fashioned built-up asphalt roof might fail in 10 to 20 years, but we reliably knew they would fail in that time period. When a new roofing system comes along, we can look at lots of material tests and even accelerated aging tests. But nothing tests a roof like 20 years of actual exposure. Lab tests usually measure one variable at a time; everything happens at once in nature.

It is generally best to tell customers when changes have been made to trusted brands. Then, work closely with them while they get used to the feel of the new product and learn to use it correctly.


An Earthshaking Opportunity

I felt the earth move last week, even though I was hundreds of miles from the epicenter of the earthquake. It was a reminder of the near certainty that there will be a major, devastating earthquake in the US in the near future.

We all know that individuals, businesses, and institutions must plan for earthquakes and other disasters, building product manufacturers can also plan ahead.
As the map shows, earthquake (and tsunami) opportunities are not just for the West Coast market. Indeed, faults in the Midwest and near large population centers of the East Coast are more vulnerable to loss of property and life.

Advances in building standards usually occur in response to natural disasters. As scientists, underwriters, and policymakers study the lessons learned from quakes in Haiti, Chile, Mexico, and Japan, more stringent building codes are likely to emerge.

But there is no need for you to wait until then. Now is the time to take a fresh look at your product offering to determine if your products can help create safer buildings. Give me a call if you want to discuss your opportunities; your initial call is always free. I look forward to hearing from you.

Triangle Fire Legacy

March 25, 2011 marks the 100th anniversary of the Triangle Factory Fire in New York City that killed 146 workers. This tragic event focused attention on fire safety in construction, and accelerated the acceptance of tighter building codes and life-safety regulations.

The Fire illustrates how disasters are frequently the progenitor of new construction technologies. Reforms sparked by the incident led to mandatory usage of many building products we now take for granted, including:
  • Panic bars on exit doors.
  • Automatic fire sprinklers.
  • Fire alarm systems.
  • Fire-resistant glass at egress paths.
This cause and effect relationship continues: Environmental disasters spawn sustainable construction. Hurricanes bring demands for airborne missile testing of wall systems. And floods inundate us with innovation.

The only way to redeem a tragedy is to learn from it.

Labeling Packaging and Products

A new hand-held inkjet printer has potential marketing benefits for building products. The Handjet Printer from EBS Ink-Jet Systems can apply any text to almost any surface. While it is primarily designed for applying labels to packaging or products, it can also be used to print notes, quickly and legibly onto a product to simplify field installation.

This could be especially useful for customized products fabricated with CAD/CAM equipment where each part can be potentially unique. In current practice, such a product would be shipped into the field labeled with a part number. One would then have to look at a set of drawings to identify its location in a project. The drawings may also have notes indicating erection sequence, attachment locations, warnings, and other information related installation of the part.

With the Handjet, these notes could be readily printed on the part itself, simplifying the installers time cross referencing between the parts and the drawings. The convenience, and potential labor savings, can become a marketable feature of your product.

Similarly, information typically found in an maintenance manual could be printed on a product, simplifying building operations.

I can visualize other uses for the technology: In-plant applications include quality control, inventory. and shipping. In the field, it could be used to create attention-getting notes to installers or other trades people. And as job site robots come into use (and they will), ink jet printers like this could be used to mark survey and layout points to speed installation.

Chusid Client wins Innovative Product Award

Hanley Wood has announced that the new SPD Protector by Lythic Solutions, has received the Editors Choice award in their Most Innovative Product competition held during World of Concrete. Chusid Associates helped Lythic Solutions with their entry into this contest.

Contests such as this give building product manufacturers great PR exposure. The award provides an important testimonial, it gets announced by the sponsoring magazine, and the manufacturer can use the award on its website, product labels, and press releases.

Remember: You can't win unless you enter.

Flood Resistant Products

I have written recently about the growing opportunities for flood-resistant building products. Here is an exciting new product that addresses this need:
The High Tide Escape Hatch can be installed between roof rafters, and opens easily to allow people to escape through their roof. For anyone building in a low laying area, it has now become irresponsible to not provide this type of egress.

What new products will you introduce to address the concerns about flooding?

G'day, USA: Australia's James Hardie is making a splash in the U.S. market

This is an encore of an article Michael Chusid wrote almost 20 years ago. Since then, the construction industry has been increasingly globalized. However, most of their observations about the North American market remain the same.

Hardie saw a previous recession as a great time to invest in a new market -- a potential that also exists in our current economic malaise. The firm has sold off its gypsum board and irrigation interests, but has established a solid brand and market leadership in the fiberboard category.  

There is good news about the U.S. construction products industry: We enjoy a productive and flexible work force and an excellent safety record. Our designers are open to new products and techniques. We are adventurous, ambitious, and independent. And, despite the recession, our economic prospects are robust enough to merit substantial investment.

That is the decidedly upbeat view as seen from  Australia, home of James Hardie Industries Ltd., whose U.S. subsidiary is rapidly becoming a major  player in the North American construction products industry. In just five years, Hardie has become a significant supplier here of gypsum board and a range of fiber-cement products. The company has quickly earned a reputation for quality products and efficient production. Sales at its U.S. unit, which also markets irrigation products and sprinkler fittings grew 21% to $145 million (US) in the fiscal year ending in March.

Hardie's trek into the U. S, market has not been without a few bumps, however. Hurt by the construction downturn and severe price-cutting in the gypsum market, the U.S. unit lost $14.5 million last year. The company has had a tough time, especially at first, getting U.S. contractors to try its high-cost fiber-cement products. And it took a few missteps to make Hardie realize it had to Americanize its marketing operations to be successful here.

Things are just now beginning to shape up. Don Manson, president of the Mission Viejo, CA-headquartered unit, says both sales and profits improved "significantly" in the first half of this year, thanks mostly to growth in the fiber-cement business. "I'll be very surprised if we're not profitable in fiscal 1994," Manson says.

If so, the U.S. unit will be on its way to following in the rather large footsteps of its Sydney-based parent, one of Australia's leading industrial manufacturers and a dominant producer of cladding there. For most of James Hardie's 100-year history, the company's chief product had been asbestos-cement board, popular in Australia's hot, humid coastal cities. But when health concerns about asbestos surfaced, Hardie switched in 1980 to a wood-fiber cement board. It retains most of asbestos' desirable properties, but it is stronger and easier to work with.

Coming to America
About that same time, the company began to diversify through a series of acquisitions and product developments. It grew into a billion-dollar company, but its development was limited by the size of its home markets of Australia aid New Zealand, whose combined population of 20 million is less than California's.

"The question then was, do we expand into other activities or do we take our knowledge to other parts of the world? We chose to do the latter," says Manson, formerly head of Hardie's New Zealand unit. "We had extremely good products and technology, so it was a question of how to capitalize on it. We looked to the United States because we saw somewhat similar building practices, an extremely large population, and a relatively common language."

Another factor was the mid-1980s collapse of Johns Manville, a leading U.S. supplier of asbestos-cement products. "We saw a vacuum here for [non-asbestos] cement panels," says Pat Collins, technical services manager for Hardie's U.S. building products division. Also, the U.S. market was not entirely new to Hardie. The company had already made inroads by bringing in its irrigation and sprinkler products in the 1970s.

Hardie's expansion into the United States began in earnest in 1987. That year Hardie bought a gypsum quarry and a gypsum board plant in Las Vegas and another plant in Seattle. It also began exporting some fiber-cement products to the United States, though by 1990, it was making those products at its Fontana, CA plant.

At first, the company combined the gypsum and fiber-cement operations, but it later reorganized them into two divisions. "They are separate businesses," Manson explains. While gypsum board is a price-sensitive commodity product, the high cost fiber-cement products are more proprietary and require missionary work to sell. And while Hardie's gypsum boards are marketed on the West Coast and exported to countries such as Korea, the fiber cement products are sold in the Sun Belt.

The company makes three types of fiber-cement products: siding, backer hoard, and roofing shingles. They are sold mostly in niche residential markets where their unique properties can be marketed at a higher cost. The backer board has shown the most market growth and potential. It can command a small premium because it provides the smooth finish necessary with vinyl flooring, and its water impermeability makes it ideal behind ceramic tiles in wet areas.

The roofing shingle has had a relatively high penetration in California, but Hardie won't be able to expand the market North until it perfects the shingle's freeze/thaw properties. The siding, which has had slow growth, has faced tough competition from other cladding, mostly wood, because of cost and aesthetic reasons. Its main selling point is its long life, and that's not as much of a concern in the United States as in Australia.

Though the Fontana plant is now running at only half its 100,000 tons per-year capacity, Hardie sees  enough market potential to warrant buying land near Tampa, FL for a second fiber cement plant.

Hardie has met with some frustrations, though. It has had difficulty getting U.S. contractors to get past their low-cost mentality and try Hardie's fiber-cement products. "The acceptance has taken a little longer than we anticipated," Manson says. "Even though our product may be clearly superior, if the tradesman has been used to doing things a certain way for 20 to 30 years, he's not going to change quickly.

"It has taken until this year. But now it's really coming on." U.S. sales of Hardie's fiber-cement products grew 14% in fiscal 1992 and that division cut its losses 15%. "And that's being achieved against a depressed economy," Manson says.

Fitting in
Hardie's initial projections underestimated the U.S. demand for fiber cement shingles, mainly because shingles are not popular in Australia. Such predisposed outlooks are one of the hazards of transporting a business from one country to another. Despite their similarities, Australia and the United States have much different marketing environments.

"It's taken five years to come to terms with and fit into American culture," Collin says. "The slowness in getting to that stage was due to Australian attitudes and traditions trying to be imposed onto American culture. It doesn't work. We had to become an American company run by Americans."

And that is exactly what Hardie became. The building products division, for example, is now run by an American, vice president and general manager Louis Gries, and a management team recruited from U.S. firms. Collins is one of the few Australian expatriates still in the United States. Both he and Manson, a New Zealander, see their roles as transitional and temporary.

One adjustment Hardie made after a few years in the U.S. market was to decentralize its marketing organization by putting senior staff in regional offices, rather than have them manage from afar. "That's made a powerful difference," Manson says.

As Collins explains it, a decentralized structure is not a necessity in the smaller Australia. But in the United States, it's a must. "This country is so large that we can't talk about just one country from a marketing or manufacturing point of view," he says. "In each place it has to be carefully done to fit the local requirements and culture. It's 50 different countries really."

Another difference Manson has observed in the U.S. market is its cavalier attitude towards quality. Australians, by contrast, are a less mobile people and tend to use higher quality building materials to build homes for a lifetime. "It surprised me that the expectations of consumers are not great here," he says. "I see enormous homes with high prices, but the quality is not dramatic.

"Our backer board is an excellent product, but it gets covered by tile and is out of sight. It's hard for the builder to justify an additional cost. How do you [charge a premium] when it's coming out of the builder's profits?'

The answer, says Mike Going, Hardie's U.S. marketing manager until his recent return to the New Zealand unit, is aggressive marketing that will convince contractors and home buyers that quality is worth the extra cost. "Hardie must foster an aggressive and creative marketing vision while at the same time doing all the small things that have to be done to carry out a successful marketing program."


Have a question you'd like us to answer?
Send an email to michaelchusid@chusid.com 

By Michael Chusid, Originally published in Construction Marketing Today, ©1992

Is your product in MasterFormat?

A marketing maxim says sales depend on three things: 1. Location, 2. Location, and 3. Location.

In construction, the location of your product information is determined by MasterFormat. MasterFormat is the industry standard for organizing construction information according to the type of work being performed. It is used to organize construction specifications, cost data, schedules of values, and other project data. Building product manufacturers need to know the MasterFormat sections where their products should be specified.

What happens, however, if your product doesn't fit into an existing MasterFormat section? This can occur whenever a new type of product is brought to market, or when new demands on buildings requires the creation of new building solutions.

Fortunately, there the Construction Specifications Institute (CSI) and its partners in MasterFormat have created a means for proposing revisions. Revisions can be proposed online at www.masterformat.com, and the MasterFormat Maintenance Task Team meets each summer to consider revisions.

Here are some examples of recent revisions:

Section 03 35 33 - Polished Concrete Finishing: Polished concrete has gained popularity in the decade since the technique was developed. We proposed this section on behalf of Lythic Solutions, a firm that provides materials for polishing. 

Section 03 48 63 - Precast Pre-Framed Concrete Panels: MasterFormat had a section for precast concrete panels, and a place for metal stud-framed panels, but no place for panels with a precast face and metal stud framing. We proposed this section on behalf of Ecolite Concrete, one of several firms pioneering this new technology. 

Section 09 24 00 - Cement Plaster: This section used to be called, "Portland Cement Plaster. However, our client, CTS Cement Manufacturing Corp, made a product that is used the same way, but contains a different type of cement. The solution was to drop "Portland" from the section name.

Having an assigned section in MasterFormat gives your product category increased credibility, signaling that it has become an established product option. And having a section name and number makes it easier for specifiers and contractors to search for and find products in that category. And it is part of your brand's positioning.

Taking the initiative to propose a change demonstrates your firm's leadership in the industry. It also gives you bragging rights, and a reason to issue a press release.

Of course, not all proposed revisions are accepted. For example, my suggestion for a new section for "Fly Ash Brick" was rejected. The committee felt this new product could be specified under the existing section for "Clay Unit Masonry." I suspect this decision will be revisited in a few years after Fly Ash Brick becomes more accepted in the marketplace.

Fire Safety is now a Green Issue

My associate, Aaron Chusid, is fond of saying: "The green building movement is over; it won. We don't talk about a 'fire-safe building movement' anymore because fire-resistive design has become a regular part of construction. We have to start discussing sustainable design in the same way."

Aaron's insights may be a bit premature, because a new report by the National Association of State Fire Marshals (NASFM) makes it clear that fire safety is also a green building issue.

Their report, titled Fire Safety and Green Buildings - Bridging the Gap is a free download. I recommend it as required reading for all building product marketing executives during their midwinter break. It is chock-full of issues and challenges to inspire fresh marketing strategies for the new year.

It points out that a single-attribute approach to sustainable product selection can produce unintended fire hazards. For example:
  • Engineered wood systems may make efficient use of forest resources, but they may not provide the same fire safety.
  • Photovoltaic panels on a roof provide renewable energy, but they can be a hazard to fire fighters.
  • Some insulations with excellent thermal resistance also generate smoke that  hinders fire fighting.
  • Vegetative roofs have lots of environmental advantages, but shouldn't prevent fire department access.
Reading this report may help you identify threats or opportunities in the changing marketplace. One of Chusid Associates' clients, for example, is launching a new marketing initiative stimulated by the report. Their door opener is that the NASFM has raised concerns about the fire safety of products in its niche. This prepares the way for demonstrating that the firm has already solved the problem, allowing its customers to be both green and fire safe.

Designers Become Competitors

Global architectural design firm HOK has launched a new business: HOK Product Design, LLC. Through this venture, HOK designers from across the firm will design products for use in and around the firm's core business of architecture and interior design. HOK Product Design will license its designs to manufacturers for fabrication and sale.

Many building product innovations have been developed by architectural practitioners, and some architects have even gone on to form successful building product companies. However a large, well organized program of innovation like HOK's changes the game, transforming the design firm into a veritable business incubator.

This may change the traditional relationship between building product manufacturers and designers. In the past, manufacturers with innovative ideas often sought feedback about concepts or prototypes from architects. Now, there will have to be more concern about whether the designer is actually a potential competitor that might use your ideas not for a building but for a product launch.

A press release from the organization states:
"Product design is a new outlet for our unique brand of design thinking that aims at creating value for HOK by creatively responding to the needs of a new range of customers, in addition to those of our current clients," explains Riccardo Mascia, AIA, a member of HOK’s executive committee. "We also want to offer our people new opportunities for creative expression and professional development."

HOK Product Design, LLC, which is structured as a standalone business within HOK, is led by Susan Grossinger, former director of interiors for HOK Los Angeles. The business will support the development of products ranging from architectural and interior design to consumer, health care, and sustainable offerings. "Product design is a natural extension of what we already do in terms of developing innovative solutions to our clients' challenges. Our goal is to start from square one in terms of creating new concepts, as opposed to simply modifying existing products that are already on the market,” says Grossinger. “We also operate as an extension of HOK’s long-term leadership in sustainability, and are committed to having all our products enhance environmental quality.”

The new company already has secured business arrangements with manufacturing partners for 12 products designed by HOK people.
  • Designed by HOK’s planning and architecture designers Matt Snelling and Paul Wilhelms, the FRENO Rain Garden is a kit-of-parts, urban rain garden for stormwater filtration and groundwater recharge. This patent pending modular system saves clients more than 30 percent over traditional construction in both budget and time and is licensed to Midwest Products Group.
  • HOK Chicago interior designers Tom Polucci and Natalie Banaszak designed Mannington's rubber and carpet tile Spectrum Collection.
  • HOK Houston interior designer Paul Smead designed an executive lounge seating group as part of the Cumberland Furniture Designer's Speak program.
  • The Shadowline Wall Coping designed by Los Angeles architect Chris Anderson is licensed to WP Hickman and was simply a response to the lack of commercially available standard options.
  • Other products under development target the health care, lighting, urban planning, furniture, finishes, fire and life safety, and sustainable sectors.
"HOK's global experience in strategic planning, workplace, health care, science and technology, and other specialties gives our designers the creative vision required to identify gaps between what's available in the market and products that can provide value to our clients while improving the experience, health and productivity of end users," says Grossinger. "We want to fill these gaps with our innovative product ideas."

MasterFormat Updates

MasterFormat is the construction industry standard for organizing information about building activities. It is used to compile project manuals, cost databases, and information about building products.

Six years after MasterFormat 2004 was issued, there are still segments of the building industry clinging to outdated versions of MasterFormat.  This became clear last night when I made a presentation about MasterFormat to the American Society of Plumbing Engineers (ASPE). I told them that now is the time to move ahead. The updated version of MasterFormat has reached critical mass in the construction industry. Continuing to use an older version gives the appearance that a firm is behind the times and not keeping up with best industry practices.

CSI has instituted a program for adding or revising section numbers and titles on an ongoing basis. There have been so many incremental changes in the past six ears that an updated version of MasterFormat -- The Book has been recently issued. Most of the book's content is also available at www.masterformat.com.

In 2004, as a member of the MasterFormat Implementation Task Team, I created a slide show explaining how to use MasterFormat. I have now update the Powerpoint presentation to reflect recent changes. I will be pleased to share the slide show with anyone wanting to use it for training purposes. (The presentation is optimized for use with plumbing designers, but can be readily modified for other construction industry segments.) Contact info@chusid.com.

Many of the updates since 2004 are due to the development of new building products and construction techniques that did not fit into existing MasterFormat sections.  For example, Chusid Associates initiated the following new sections on behalf of our clients:

      03 35 33 Polished Concrete Finishing

      03 48 63 Precast Pre-Framed Concrete Panels

We were also able to get the sections titled "Portland Cement Plaster" renamed to "Cement Plaster", a change that was important to a client that makes a hydraulic cement plaster that does not contain portland cement.

I have also written an article on how to use MasterFormat in building product marketing, and will be glad to send it to anyone who wants a copy. Email info@chusid.com.

Product Inspiration from Neocon

I salute the spirit of innovation that moves the building product industry forward. Here are just a few of the things I saw at Neocon that suggest new opportunities and may inspire innovations in your product line.

Chairs from TMC Furniture with digitally printed graphics remind us that new options are available for decorated surfaces.

White LED light continues to be improved, more affordable, and more practical. Look at how even and brilliant these cove lights from Tempo Industries are. Watch for LEDs to be inserted into all sorts of building products.

The design of this table lamp is not what interests me, it is the design process. This was stereolithically printed by the designer, Kevin Willmorth, as part of his campaign to design and produce a lamp a week for 52 weeks.

In addition to LEDs, there are other new ways to play with lighting. I think you have to see these Sensitile panels in person to appreciate how they play with light and create the illusion of motion.

New installation methods abound. For example, ceramic tile with an interlocking, floating installation to keep tiles aligned, reduce installation time, and protect against cracks in a concrete slab from telegraphing through the tile.

 
I have written before about the trendy use of tessellations, and they were very evident at the show. This product, Clouds from Kradrat, is composed of stiffened fabric tessellations of triangles joined together by elastic bands. It can be used as an acoustical wall or ceiling covering, or just for fun.

Also see my earlier post about the growing variety of dry erase marker boards.