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Improved productivity and performance with automated lubrication

Proper lubrication is integral to ensuring the functionality of components and systems within heavy-duty machinery.

“If there’s a bushing, bearing or gear, something that is rotating or sliding in agricultural, construction and mining machines, it’s going to require lubrication,” says Peter Laucis, Director of Portfolio Management – ALS Products, SKF Lubrication Business Unit. “And the heavier the loads, the more aggressive and dirty the environment, the greater the need for lubrication.”

While manual lubrication is still the norm in many applications, use of automated lubrication systems (ALS) is becoming a more prevalent alternative to help minimise downtime, improve overall quality and safety through preventative maintenance.

With an ALS, lubricant can be applied exactly when and where it’s needed while the machine is running. Manual lubrication, on the other hand, requires the machine to be stopped before lubricant can be applied, and may require a person to climb onto the machine which can be a safety issue.

In addition to helping increase safety and productivity for equipment owners, Laucis says OEMs can also benefit from integrating an ALS into their equipment. “It can extend warranty and performance, and it can maintain the unit running at various conditions under the design the machine was geared to do.”

The systems and how they work

An ALS consists of a reservoir containing grease or other designated lubricant and an electric, pneumatic or hydraulic pump which activates the system to deliver lubricant from the reservoir to the desired location within the machine. Depending on the design of the machine, lubricant can be dispensed to as many as 100 or 200 different points. A series of metering valves are used to apply the lubricant in the desired location at the exact time lubrication is needed.

The system knows where and when to apply lubricant due to built-in controls. If the ALS is integrated into a machine at the factory, the system can be controlled by the OEM’s programmable logic controller (PLC). The appropriate lubrication intervals are programmed into the PLC, enabling it to turn on the ALS when necessary.

SKF also designs controllers which can be built into the system if it is added to a piece of equipment at the aftermarket level or another point along the OEM channel, such as by a dealer. Laucis says these controllers can provide simple on/off control or be more sophisticated through the inclusion of sensing devices to provide operators with information about when lubrication cycles are occurring, fault indicators and performance attributes.

Single line parallel and progressive are the two main types of lubrication systems used within heavy-duty mobile applications. A single line parallel system consists of a reservoir and a pump connected to a bank of injectors by a single hose line. The injectors are lined up in parallel with one another, like fingers on comb, and each of the injectors function independently of one another. By doing so, each injector meters the exact amount of lubricant required and can also be adjusted independently if necessary.

The independent functionality is beneficial because if one bearing fails or gets blocked in some manner, it will not adversely affect lubrication of other bearings in the machine. “People like the single line parallel because they can lubricate the entire machine of, let’s say 120 points, and when a couple of those points fail, they’re still getting lubrication in the other systems,” says Laucis.

He notes these systems are often used in heavy mining equipment due to the need to minimize downtime as much as possible. It can also be used in construction equipment to avoid poor operator maintenance and in agricultural equipment for safety and bearing protection.

Progressive systems are similar, except the single line goes to a series of valve blocks instead of a parallel line of injectors. Each valve block meters lubricant to various points within a machine; one block may have up to 12 points to which it provides lubricant, and the next block or zone will lubricate another 12 points, and so on. “The main difference is if you have one bearing that blocks, it literally stops the entire system because the grease is progressing through the system in a series,” Laucis says. “If you block one bearing it will actually have a hydraulic lock on every piston in that block in the system, then the whole system shuts down.”

He says this type of system is typical for medium-size machines such as those used for highway construction because customers like that a fault indicator will come on when a blockage occurs, letting them know to check the machine at the end of the work day. While downtime is a concern, it is not as important as in mining operations where even the smallest amount of downtime can adversely affect productivity and thus profit for the customer.

Multiline systems can also be used in off-highway machinery. This system consists of a round housing with several points—up to 20—coming out of it, each of which goes to an individual bearing or other component to lubricate. The system is designed to simultaneously feed several points within a short distance. Laucis says this system is typically used in smaller, less heavy-duty applications due to the fact that it’s not necessarily the most cost-effective option. Since the system is limited on how many on points it can feed, a larger machine would require several systems to be installed, whereas the single line systems are more modular and better able to feed a larger number of points from a single source.

Moving toward more automation

Use of an ALS is becoming more prevalent within the heavy equipment industry, however, Laucis says it can be difficult in some applications to compete with an individual who manually lubricates a machine. In large, heavy-duty machines—such as mining equipment—he says there is a high rate of adoption because much of the equipment is automated to maintain performance levels and eliminate or minimize downtime, which can be aided by an ALS.

He says safety is also a factor for increased use of these systems in heavy machinery. “People are becoming really safety conscious. They are preventing or minimizing the environments where there’s danger, and lubricating points on a machine is a safety issue.” Eliminating the need to manually lubricate parts of the machine ensures a person will not have to climb all over the machine—which may be covered in dirt and grease—and risk possible injury. “You also have mechanical shut off devices, automatic sensing for high/low level grease levels,” says Laucis. “All these accessories are now becoming more prevalent and required on automatic lube systems because they will promote safe environments, continuous uptime performance and be able to provide a nice clean machine.

“In the medium machinery market, where cost per point is becoming more critical, I would say the market is stabilizing and increasing based on the value of performance,” he continues. This is due in part to the ability to add telematics to the lubrication system, enabling customers to receive feedback on performance and servicing like they do with other systems in their machine. Increasing safety has also caused the rising use of automated lubrication systems in these machines.

On smaller sized machines, Laucis says manual lubrication is still the norm as end users typically have regularly scheduled maintenance they perform, making it easy to have lubrication be a part of that maintenance regimen. However, he does see the rate of adoption for ALS increasing in this segment, as well.

Whether the system is installed at the OEM or aftermarket level is also dependent on the type of machinery in which it will be used. On larger machines, the OEM tends to install the ALS at the factory. As machine size starts to decrease, the use of auto lube become options depending on the customer preferences and use of the machines in their environment. OEMs look to a strong aftermarket “pull” by their customers to standardize their ALS factory fit systems.

On the aftermarket side, he says it’s important to look at what value there is for the customer to add the system, such as safety and performance benefits. For a rental fleet, the case could be made for using the systems to help maintain inventory. If a rented machine comes back and is not performing as it should, the ALS’s data logger can verify whether or not the machine was properly lubricated to help narrow down what may be causing the issue. Laucis says having strong aftermarket support and proof of ROI on the end user side can lead to an OEM seeing value in integrating the system at the factory.

Since SKF also designs and manufactures bearings, the company is able to use its knowledge of how they work, and what causes them to fail, in order to explain the benefits of moving to an ALS. One of the most common performance issues with bearings is the lack of lubrication and they are dirty. “The best way to prolong the life of a bearing is to have a continuous, thin film of lubricant at all times,” says Laucis. “We have studies and other information to say if you continually lubricate with small intervals, you will have the longest performance of a bearing.”

An automated system is able to provide that continuous lubrication, whereas manual lubrication would require a person to stand by the machine while it’s running and move a grease gun to every point requiring lubrication, and apply grease every minute says Laucis. Often times manual lubrication is completed at the end of the work day or week, and the lubrication point is flooded with grease or the worker only applies a few pumps of grease and then goes about his or her business. This causes long intervals between lubricant applications, which he says is not the best way to prolong the life of a bearing.

“And that’s the philosophy of automated lubrication versus other methods that has to be sold and promoted to maintain machines on a longer level,” says Laucis. Through the use of an ALS, both OEMs and end users can benefit from the system applying only the amount of grease a bearing requires and at the exact time it’s needed, ensuring the bearing will perform as designed and machine downtime will be minimized.

The original article written by Sara Jensen/OEM Off-Highway can be found here: http://www.oemoffhighway.com/article/12250664/automatic-lubrication-systems-increase-machine-performance-and-reduce-downtime.


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20 years NKE Austria

Category : Νέα

Steyr, Austria, October 2016. Bearing manufacturer NKE Austria GmbH is celebrating its 20th anniversary this year. Based in the Austrian city of Steyr, the company was founded in 1996 by Heimo Ebner and Harald Zerobin, both previously leading employees of former bearing manufacturer Steyr Wälzlager. NKE produces standard and special bearings for all industrial applications, with engineering, product development, production, final parts processing and assembly, quality assurance, logistics, sales and marketing being centralised at its Steyr headquarters. The bearings are distributed through 12 international representative offices and 240 distribution outlets in 60 countries.

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NKE founders Heimo Ebner (left) and Harald Zerobin (right) with General Manager Thomas Witzler

In its first ten years, NKE experienced rapid, constant growth, with its turnover increasing on average by more than 20 percent a year. As early as 1996 its employees numbered about 80. To keep up with the growth, the company’s premises in Steyr-Gleink were expanded several times, but still proved too small. Consequently, new premises were completed in the Stadtgut Steyr business park in 2009. The new premises, in which NKE invested more than 15 million euros, had a building area of 10,000 m². As well as doubling the production capacity, the relocation facilitated a greater vertical integration and more efficient logistics. Despite the financial crisis, NKE increased in turnover in 2009 while its number of employees grew to 200. An important growth sector in this respect was wind energy, with China as the number one growth market. It was in the same year that NKE opened its first Chinese sales office in Shanghai. In the end, however, the global financial crisis did not pass NKE by without leaving its mark: today, staffing levels are down to 120. With the aim of uniting strengths and expertise and taking advantage of synergies, Spanish bearing manufacturer Fersa Bearings, which is specialised in the automotive sector, acquired an interest of 49 percent in NKE in 2016. The resulting group of companies boasts three production sites, five distribution centres, and three research and development locations.

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The NKE headquarters in business park Stadtgut Steyr.

After guiding the company for 20 years, its two founders and former General Managers Heimo Ebner and Harald Zerobin passed the company’s management on to Thomas Witzler in July 2016. With their many years’ expertise and experience they continue to be active in NKE, dealing with strategic planning within the company. “It is with pleasure and a little pride that we look back on the past two decades, in which we have succeeded, together with our staff, in establishing NKE as a manufacturer of premium bearings” says Harald Zerobin. “With the reorganisation we can now invest more time in strategic topics to shape and plan the next 20 years.” Regarding his future plans for the company, the new General Manager Thomas Witzler says: “Our aim is to continue our success story of the past 20 years. We will increase our focus on technical solutions, not least as a partner in the development of smart bearing solutions. Initial confirmed customer projects and feedback are already showing that we are on the right path. In addition, we have been able to bring ‘Advanced Engineering’ – the development engineering department for the entire group of companies – to our Steyr headquarters. In five years we want to make 20 percent of our sales with products that haven’t even been developed yet.”

About NKE Austria:
NKE Austria GmbH is a bearing manufacturer with headquarters in Steyr, Austria. The company was founded in 1996 by a group of senior staff members of former company Steyr Wälzlager. NKE offers both standard and special bearings for all industrial applications. Engineering, product development, production and final processing of components, assembly, quality assurance, logistics, and sales and marketing are centralised at its Steyr headquarters. The factory in Steyr is certified to ISO 9001:2008, ISO 14001:2004 and OHSAS 18001. NKE’s products are distributed through 12 international representative offices and more than 240 distribution outlets in over 60 countries.


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Driving the green revolution

Category : Νέα

Now that the dust has settled on the COP21 meeting held in Paris in late 2015, it’s time to roll up our sleeves and plot a way forward, says Rob Jenkinson, Director of Corporate Sustainability at SKF, who shares his personal views on sustainability and the impact the COP21 will have on the industry

While politicians, diplomats and other high-ranking dignitaries have made promises and commitments, and agreed challenging targets, it is industry that will do the spadework by putting many of these commitments into practice – from improving energy efficiency to investing in low carbon technologies.

Industry will play a massive role in transforming our carbon-based world – that is wasteful with energy – into one that generates energy without any greenhouse gases, while using it much more efficiently.

It will require investment, and commitment, with innovation driving the growth of both new and established technologies. It will encompass everything from system changes – such as renewable energy sources and electric vehicles – to lower level operational improvements, such as more efficient pumps and motors, and better maintenance and reliability. As engineers, we love a challenge – so will be leading from the front on this.

This is not to belittle the contribution of government. The Paris meeting was an important milestone, in that so many nations reached an agreement to restrict future temperature rises to less than 2 degrees C. Now, with an agreement in place, these governments must enact sensible and challenging legislation – with appropriate incentives and penalties – that underpins the effort to reduce carbon emissions.

Legislation is a crucial driver for sustainability. The European automotive industry, for example, has slashed carbon emissions – mainly because tough legislation demands this. In similar ways, the stimulus of feed-in tariffs for solar or wind energy, and increasingly stringent emissions legislation were also vital in moving the sustainability agenda forward.

While the Paris meeting was an overall success, they didn’t get everything right: the agreements could have been legally binding and they could have done much more to put a global carbon pricing market in place.

I think that a globally connected set of carbon markets is an absolute necessity for the future – and is a distinct possibility. For now, we have isolated and poorly functioning carbon pricing schemes in different regions. Fixing them and hooking them together would help ensure that there is a level playing field for everybody and accelerate the rate of change An effective and sufficient global carbon price could make many things possible – including carbon capture and storage, which could avoid carbon emissions from combustion by storing  them  deep underground where it cannot contribute to climate change.

In reality, there is no single solution to the problem of climate change – so we need to work on many fronts at the same time.

Agreeing to a massive cut in emissions, as was achieved in Paris, may seem to be a nightmare for industry. It is actually an opportunity – tempered by risk – that will require a fundamental shift in thinking.

Look at the hard savings that can be gained from introducing energy efficiency measures; or at the top-line growth of companies that understand this – such as Tesla.

There are generally four types of company when it comes to climate change: those who do and say nothing – though, among larger companies, this is fast disappearing; those who say something but do very little – which might work as PR in the short-term, but ends up being more costly in the long run; those that are genuinely committed to carbon saving and energy efficiency – but restrict this to their own operations; and those for whom sustainability stretches beyond their own organisation.

At SKF, we try as hard as we can to be in this fourth category with BeyondZero as the strategic framework with which we drive and communicate all the various initiatives needed to do this. BeyondZero addresses both the opportunity to reduce carbon and cost related to our own operations and those of our suppliers, logistics etc. At the same time bringing more and more innovative solutions to our customers that help them (and society) do the same. For example, we work with our suppliers to drive improved energy efficiency, in an attempt to shrink not only the footprint of our direct operations but also up the value chain.

Within our own operations we have had a relentless focus on energy efficiency: between 2006 and 2014, we slashed total energy use by 16%, while growing our business by more than 34%. Yes, it’s part of our BeyondZero pledge to reduce our footprint – but it has saved us the equivalent of SEK200m each year. That’s a real example to dispel the myth that sustainability always goes hand in hand with higher costs.

Of course, the endgame is a full-scale transition away from fossil fuels – especially coal – and towards a ‘low carbon’ economy that sees low carbon and renewable energy sources gradually take over. It will take time – 20 or 30 years at least – but we need to start that journey now, and deliver the reductions needed in the short-to-medium term. We can do this by rapidly increasing the efficiency with which we use energy in industry and society – and there are already many ways to do this.

Variable speed drives can reduce the energy consumption of a motor by around 30%. Fifteen or 20 years ago, VSDs were seen as a luxury. Now, they are widely used and are delivering lower energy bills for large swathes of the manufacturing sector. Companies that have bought VSDs are saving on their electricity bills – and are prepared for ever-tightening legislation, as they are working ahead of the curve on sustainability.

Another example would be to switch standard ball bearings to the E2 (energy efficient) equivalents. The reason is simple: friction. E2 bearings have been redesigned to reduce friction while maintaining life and can cut bearing losses by 30%. Multiply this across the industry and you have lower electricity bills. When lots of apparently small actions like this combined  it can have a very large effect.

The manufacturing industry will be at the forefront of making and enabling these kinds of practical changes. If the transformation is to take place with sufficient scale and speed, industry must see a value to making these changes, and recognise the risk of standing still. If companies want to be part of the transformation – and profit from it, rather than suffer by it – they need to act now.

* To be included in the BeyondZero portfolio, SKF products, services and solutions must be demonstrated to deliver significant environmental benefits to the customer, without significant environmental trade-offs elsewhere in the product life cycle.


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Η νέα Alfa Romeo Giulia κινείται με μονάδες μουαγιέ της SKF

Category : Νέα

Η SKF παρέχει τις μονάδες μουαγιέ για τη νέα Alfa Romeo Giulia

Οι μονάδες HBU3 της SKF που επιλέχθηκαν για την ολοκαίνουργια Alfa Romeo Giulia προσφέρουν μια ποικιλία εντυπωσιακών πλεονεκτημάτων σε σύγκριση με τα συμβατικά ρουλεμάν τροχού. Σε αυτά περιλαμβάνονται ταχύτερη και πιο άμεση τοποθέτηση και μεγαλύτερη διάρκεια ζωής. Η προφόρτιση του ρουλεμάν ρυθμίζεται κατά την κατασκευή των μονάδων, ελαχιστοποιώντας το διάκενο και διασφαλίζοντας εξαιρετικά χαμηλά επίπεδα θορύβου και κραδασμών.

Πέρα από τη βελτιωμένη αξιοπιστία, οι οδηγοί επωφελούνται από τη βελτιωμένη οδήγηση και χειρισμό, ιδιαίτερα στις στροφές, χάρη στην υψηλή ακαμψία που διασφαλίζει η γεωμετρία των τροχιών κύλισης των ρουλεμάν X-tracker της SKF.

Ο Stephane Le Mounier, Πρόεδρος του τμήματος Αυτοκινήτων στην SKF, δήλωσε “Η FCA είναι ένας στρατηγικός συνεργάτης της SKF και είμαστε υπερήφανοι που αναδειχθήκαμε προμηθευτές της νέας πλατφόρμας τους Giorgio, στην οποία η Fiat πρόκειται να λανσάρει μια σειρά μοντέλων αυτοκινήτων. Τα ρουλεμάν τροχών SKF έχουν σχεδιαστεί να υποστηρίζουν την οδηγική απόλαυση που προσφέρει η νέα Giulia. Η μακρά και στενή συνεργασία μας αποτέλεσε ισχυρό θεμέλιο ώστε να δημιουργήσουμε από κοινού αξία για τους ιδιοκτήτες αυτοκινήτων. Αυτό το πράττουμε με στόχο τη μείωση της τριβής και του βάρους για την ελαχιστοποίηση των επιπτώσεων στο περιβάλλον. Η βιωσιμότητα είναι ισχυρό κίνητρο και για τις δύο εταιρείες.”


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SKF at IZB: helping the automotive industry meet the challenges of electric powertrains

Category : Νέα

Advanced materials, deep application expertise and innovative component designs support the development of new electric and hybrid powertrains

Gothenburg, Sweden, 23 September 2016: At the International Suppliers fair (IZB) in Wolfsburg, Germany from 18 to 20 October 2016, SKF will showcase a range of solutions developed to meet the demands of automotive electric powertrains.

Pure electric vehicles (EVs) and hybrid vehicles are reaching the automotive mainstream. By 2020, higher production volumes and technological advances will mean electric vehicles are likely to be cost-competitive with their gasoline equivalents. By 2040, electric vehicles may account for 35 per cent of new car sales1.

For the industry, the electrification of automotive powertrains represents the biggest technological shift for a generation. Expertise from SKF is helping leading automotive OEMs and suppliers tackle many of the challenges they are encountering along the way.

SKF eDrive ball bearings, for example, have been developed specifically to address the need for consistently low friction, high speed and high power density in EV and hybrid vehicle electric machines. The bearings use the SKF-patented energy efficient E2 polymer cage, optimized raceway geometry, and a validated long life, wide temperature grease. Combined, these advanced design features help enable longer drive system service life and extend battery range.

Hybrid bearings, which combine steel rings with rolling elements made of bearing grade silicon nitride, have a number of advantages in EV applications. In addition to a longer service life and improved resistance to vibration, these bearings also have excellent electrical insulation characteristics, protecting drivetrain components from damage caused by stray electrical currents.

SKF has also developed a range of bearing units with integrated sensors that simplify assembly and improve reliability in electric powertrain applications. SKF Rotor Positioning Sensor-Bearing Units, for example, use a patented design that allows very precise management of the sensor-bearing unit air gap. As a result, the units are insensitive to severe magnetic field disturbances, and can withstand application vibration and continuous temperatures up to 150°C.

SKF EV and hybrid vehicle solutions can be fully customized to suit the needs of specific customer vehicle and powertrain programs, and SKF’s experienced application engineers are able to offer intensive support from initial development through to series production.

1http://www.bloomberg.com/features/2016-ev-oil-crisis/


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SKF at SMM 2016 | Book a meeting with the Greek team

Simplify with SKF Marine

Visit us at SMM Hamburg  6-9 September • Hall A1, Booth 210

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Dear customers and partners,

Once again we invite you to join us for a lively exchange of experience at the leading international maritime trade fair, the SMM 2016. Our theme for this year is Simplify with SKF Marine.

Diverse requirements? Perfect product solutions!
Global technical support? SKF Marine services!
Multiple questions? One answer!

All this is Simplify with SKF Marine.

We invite you to put our customer promises to the test and look forward to welcoming you at the SMM.

It would be our pleasure to send you a complimentary online ticket.To request your free ticket, simply send an e-mail with the subject line “online ticket” to smm@skf-marine.com.

Attending SMM 2016? Book a meeting with us

Please take the chance to book a meeting with our local team and discuss your needs and challenges. 

Petros Petritis
Marine Sales Manager, Greece, Cyprus & Malta
SKF HELLAS S.A.
M: +30 6984560404
E-mail: petros.petritis@skf.com 

Rania Patsiopoulos
Managing Director, Greece, Cyprus & Malta
SKF HELLAS S.A.
E-mail: rania.patsiopoulos@skf.com


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SKF launches Marine Route Based Kit at Posidonia 2016

SKF has launched a sophisticated condition monitoring system with cloud connectivity to cut downtime and increase fleet reliability through enabling predictive maintenance in the marine sector. Introduced to the market for the first time at Posidonia 2016, the SKF Marine CM Route Kit, includes all the tools needed to implement reliable condition monitoring techniques onboard ships and allows operators to adopt an integrated approach to condition based maintenance on their entire fleet.

The kit, which includes the SKF Microlog handheld monitoring device and dedicated marine software with marine typical equipment models, can be used on all kind of vessels, as well as offshore platforms to collect data on machine and component condition. For each asset it will gauge the overall vibration levels and will be able to identify possible issues, such as imbalance, misalignment, wear, mechanical looseness, and bearing and gear faults

The measurement data is securely transferred via satellite to the SKF One Global Cloud, where SKF’s Condition Monitoring (CM) expert remote diagnostic team can retrieve and analyse the assets data as part of its maintenance consulting services. Furthermore all data can easily be accessed by the chief engineer and fleet manager, closing the loop and involving the crew in the Condition-based maintenance process.

The SKF CM expert analysis output are the recommended actions of needed maintenance which are sent to the chief engineer to take the appropriate actions and to keep the assets running smooth and efficiently.

By introducing long term monitoring and machine efficiency evaluation techniques, the SKF Marine CM Route Kit allows industry professionals to adopt a centralised predictive maintenance programme across their entire fleets. Through the detection of the machine conditions that lead to failure, proactive remedial work can be carried out to extend maintenance intervals, eliminate potential breakdowns and ensure consistently high operational safety, while also enhancing service life and reducing repair costs considerably. In addition, it is possible to coordinate the service and spare parts supply to generate further cost savings.


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Koyo European Distributor Convention 2016

Category : Νέα

“Coming together is a beginning; keeping together is progress; working together is success’’.

Bathed in clear sunlight its splendid beaches and sea are magnificent to take a dip in. Ancient treasures, landscapes encompassing vibrant cities and dreamy villages, where locals share their traditions, wonderful cuisine and generous hospitality…. Crete was the venue of our 6th edition of the European Distributor Convention.

These words describe exactly the theme of our 6th edition of the European Distributor Convention for which more than 70 participants from 20 countries attended. It was a pleasure to welcome our valued partners and colleagues at the Amirandes Grecotel Luxury Resort in Crete, Greece and combine business with a bit of holiday feeling.

The business meeting was a great opportunity for us and our partners to exchange ideas, knowledge and information about our future direction. We closed the business meeting with a ceremony where two of our Distributors were awarded for their best sales performance of 2015: Mr. Pawel Kwiecien from PWO, Poland and Mr. Zoltan Kisnemet from Rolling Kft, Hungary. The awards were handed out by our Vice President of JTEKT European Operations Mr. Francis Fortin. Read more

Our three days schedule not only included a business meeting but also a very special cultural program from where we could visit ancient sites and traditional Cretan places. The event was a great chance to show our customers how important they are for us and of course stay up to date about developments at the European bearing market. We would like to thank your participation and involvement in this special event.


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Γρασσαδόρος χειρός SKF TLGB 20 με δώρο γράσσο στην μοναδική τιμή των 400€ με ΦΠΑ !!!

Category : Νέα


 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

TLGB 20 campaign_May 2016.pdf_page_2

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Διαβάστε περισσότερα…


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SKF to showcase efficiency enhancing marine portfolio at Posidonia 2016

At the Posidonia 2016 trade fair (Athens, 6 – 10 June), SKF will demonstrate its comprehensive range of solutions designed to improve fleet efficiency and reduce maintenance costs in the marine sector.

Gothenburg, Sweden, 20 April, 2016: SKF will use Posidonia 2016 to demonstrate how to boost efficiency and reliability, while cutting operating and maintenance costs in the maritime sector through its comprehensive product and service range. Visitors to the international shipping exhibition will see how the complete portfolio of innovations being showcased has been specifically developed to enhance performance and safety on all types of vessels.

At the show, SKF will launch the new SKF Marine CM Route Kit, a solution that combines cloud based data about the condition of monitored machines, with software, hardware and consulting services to extend maintenance intervals and increase fleet reliability. With the new solution, suitable for all kind of vessels, as well as offshore platforms, fleet performance evaluations are made simpler. In addition, coordination of the service and spare parts supply is possible, which can generate cost savings for the customers.

Among the other market leading technologies to feature at Posidonia will be SKF’s innovative tank skimming equipment, the Turbulo Sludge Buoy. This mechanical device provides fast and easy oil and water separation to eliminate the need for laborious manual tank drainage processes. It is quick to install and floats inside on-board tanks for constant, hassle-free and effective separation at the source to enhance environmental performance according to ISO 14001. In operation, the oil in the tank flows into the Turbulo Sludge Buoy’s lower compartment at a maximum rate of 6m³ per hour, before it is either pumped out or flows out under gravity depending on the position of the drain.

Meanwhile, SKF will demonstrate its full portfolio of bearings, couplings, lubrication systems and seals designed to maximise fleet availability. SKF will also present its extensive range of world-class marine industry services, including condition monitoring, condition-based maintenance, alignment and on-site machining solutions, at the exhibition. On show will also be the SKF BlueMon environmental monitoring system for recording and mapping ship emissions to ensure compliance with existing regulations.

SKF experts will be available on the stand to give more information and advice on the complete range developed for the maritime industry. Visitors can also discuss their own specific issues to discover the most ideal solution to optimise their application.

See SKF at Posidonia 2016: Hall 2, stand 2.409