Author Archives: Bernard and Company

Kastalon Engineered Mandrel Sleeves Provide Greater Productivity, Profitability

Kastalon offers mills and processors highly engineered polyurethane mandrel sleeves, filler plates and filler rings with material hardness and surface options to match customer needs, protecting coils from damage

Kastalon brings 50 years experience in coil processing to the task of engineering a new offering of application-specific, proprietary formulated polyurethane mandrel sleeves, filler rings and filler plates.  These products are designed to adapt the mandrel to handle coils with larger ID’s and addresses the problems of damage from creasing, scratching and marring at mills, service centers, toll processors and fabricators alike.   Such damage is expensive for any coil handling operation, especially when the metal is prepainted or must maintain optimum cosmetic surface integrity.  By the use of Kastalon mandrel sleeves, filler rings or filler plates on the uncoiler or recoiler, the inside wraps on coils are protected from metal to metal contact.  More finished material is produced or usable, as a result.

Mandrel sleeves are custom designed with engineered surface hardnesses and grooved or smooth finishes, depending on the particular application.  Full sleeves are usually recommended for the recoilers, while filler rings and filler plates are more often utilized for uncoilers.

In use, the proprietary chemistry of the Kastalon Polyurethane material withstands the stress caused by the weight of the coil, then reforms when the mandrel is collapsed back to the rest position, owing to the inherent memory of the Kastalon engineered material.  With other materials now on the market, sleeves will often sag due to memory loss and the resulting gap can cause significant coil damage.  Correspondingly, additional labor and line downtime result from this condition, as realignment of the coil, sleeve and mandrel is needed.   Through the true and precise sizing of the mandrel sleeve, combined with the proper material hardness and surface texturing, a Kastalon sleeve can last up to 10 times longer than rubber, fiber or even other commodity type polyurethane products, according to company research, available on request.

Kastalon mandrel sleeves are non-marring, cut-resistant, abrasion-resistant and offered for friction fit, requiring a separate “keeper”, or bolt-on installation.  Company engineers consult customers on the amount of lubricant, cleaning solution or other coating chemistries present in the process, as this will determine the particular formulation selected.  Furthermore, Kastalon offers these mandrel sleeves in a wide variety of grooved or soft surface finishes to meet the specific tension and pressure requirements of a processor’s uncoil/recoil apparatus.  Special dual-durometer sleeves are also available for mills and processors where “head-in” damage is often encountered.

For most uncoilers, Kastalon filler rings or filler plates can provide the optimum performance for the tension, pressure and metal contact requirements typically present.

The design process for Kastalon mandrel sleeves can begin with a visit to the company’s website, www.kastalon.com, for completion of a needs assessment questionnaire.  Detailed information is gathered on this form, allowing the Kastalon engineers to calculate the best sleeve design and chemical composition to suit the job.

For more information on this product, please contact:

KASTALON, INC.
4100 W. 124^th Place
Alsip, IL 60803
Phone:  708-389-2210
Fax:  708-389-0432
Web:  www.kastalon.com
Email:  sales@kastalon.com
Attention:  Marty Pokorney

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Tessy Plastics With SIGMASOFT, Changing The Way They Do Business

Tessy Plastics uses virtual process development software to simulate the entire injection molding process before production, enabling them to expand their global presence while finding the most cost-effective and high-quality manufacturing solutions.

Tessy Plastics was founded by Henry Beck in 1973 and is headquartered in Central New York with facilities in Virginia and China. Tessy is constantly expanding their global presence in order to find the most cost-effective and high-quality manufacturing solutions. Producing everything from intricate medical devices to everyday consumer items, Tessy strives to engineer, manufacture, assemble and distribute products in the most effective and profitable way possible for their customers. As a family-owned and operated, privately held company, Tessy positions themselves as their customer’s manufacturing partner, taking ownership and a proactive approach on every project they encounter.

Servicing the medical, consumer products, business machines, electronic and packaging markets, Tessy partners with their customers from the design stage all the way through product completion.  Enabling them to provide their customers a full service experience, Tessy offers additional services including ultrasonic, vibration or laser welding, hot stamp/hot decal, pad printing, laser engraving, or label application printing, manual, semi-automated, fully automated or cleanroom assembly. Finishing options include gluing/bonding, machining/drilling, contact insertion, as well as, high-speed fluid dispensing or ultrasonic dispensing. Tessy also provides leak, burst, dielectric, electric, optical, rheological and spectrophotometer testing. As part of their partnership, Tessy holds themselves 100% accountable for quality assurance.

Proud of their “Commitment to Innovation,” Tessy is in constant evolution creating an atmosphere of growth and discovery.  Joe Raffa, VP and General Manager in charge of sales, says, “Using our engineering department, our goal is to continually explore and implement new ways to enable our customers to significantly evolve their business in the most cost effective, lean manner .”  Tessy is keeping the injection molding process on the cutting edge of technology by having the capability to   evaluate the entire process virtually before sample runs are even attempted on the shop floor. Eric Frearson, VP of Engineering, states, “We have some very complex parts that we manufacture as well as complex molds. Acquiring SIGMASOFT® about two years ago to virtually run the entire mold and process before using production time changed the way we do business. This enables us to understand and find solutions to significant problems that, in some cases, we have been working on for a long time,. We are now pointed in the right direction and shown the precise areas we need to focus on to create a solution, thanks to this process optimization software package.”

At Tessy, the members of the sales team have engineering backgrounds while the engineering team is heavily involved in building, developing and maintaining customer relationships. The sales team boasts trying to commit the engineers to projects that are almost impossible while the engineers welcome the challenge and come up with ways to make them happen. Raffa explains, “With SIGMASOFT® onboard, we are able to commit to these almost impossible jobs. I know that when the customer poses new projects to us, I can go to engineering and talk about warp analysis or filling analysis and whether or not a project is even feasible. Once getting that confirmation after running the process virtually, I have the confidence to commit to a project, knowing that the information we received from the simulated run will reflect reality at least 98% of the time.” Matt Learo, Sales Manager, adds, “We had an existing customer where the materials they were using were discontinued. The customer called and requested that their new material and new tool be run through SIGMASOFT® specifically, to see how the new material was going to behave.”  Stafford Frearson, Project Engineer expands, “The more complicated a project is and the more complex a configuration might be, when we are not sure how it might warp or how it might fill, there’s no question we feel more confident in going to the customer and saying, ‘this is what you are going to see’, when we have the report backing us up.” “We use other simulation software, but when the part is complex and on our harder jobs, we always run them through SIGMASOFT®,” Eric Frearson adds.

Tessy has used simulation software for over 20 years but feels adding SIGMASOFT® as one of their resources significantly changed the way they do business. Raffa told of a situation that occurred within the first few months after acquiring the new software. Most new projects Tessy acquires are first-time molded products. In most cases, Tessy helps design the part as well as the molds. Normally, all the components in the assembly are new designs. In one particular instance that Raffa described, the customer wanted to take new components and marry them to old components for a different look in the end product. Tessy learned by examining the way some of the wall thicknesses had to be designed and the way the assembly had to come together through simulation that it wasn’t optimal and the new design would simply not work. The parts that were being received from the prototype molds found warp that Tessy had never seen on these types of projects previously. The customer requested a stress and distortion analysis from an engineering company, costing them thousands of dollars, in addition to taking considerable time. Although the engineering company did provide some results and recommendations, the evidence to support these recommendations was not provided.

This became the first large project on which Tessy used SIGMASOFT®. By running multiple processes and cooling times and looking at iterations even 24-48 hours later to see how the part was going to react, it was clearly seen when pulling up snapshots and data during certain points through the process what the issue was. Tessy was able to see the part, how it cooled outside of the mold, how it flexed and how it actually got to the state where it was warped.  Eric Frearson said, “It gave us evidence to show the customer that no amount of cooling changes or process changes had any effect on the problem. It was purely a design change that was needed to fix the problem. The reports provided by the software gave us the credibility and the client the reassurance to make the changes.” Raffa adds, “It essentially short cut the entire process, we didn’t try running DOEs of all different configurations or measured a ton more parts to chase something that was really not the solution.” Learo also states, “What’s reassuring about this situation was that we hadn’t used SIGMASOFT® for very long at this point and the customer was willing to pay for the stress and distortion analysis from the engineering company and see how the results compared. We found the results long before the engineering company did. When we did receive their findings, they were the same. The difference was, we were able to show why it happened and already had a solution to present our customer.” Eric Frearson adds, “Even the engineer running the analysis at the independent company was impressed. He is an experienced analyst who regularly uses a different product.”
Tessy uses virtual scientific injection molding almost exclusively, enabling their customers to save time, material and money by doing virtual studies in order to predict molding parameters. The addition of this valuable tool enables them to focus on what the final process would be. “We can now say with a very high degree of certainty what the cycle times will be and what issues we might have, before manufacturing ever sees the tool. We weren’t able to say that before having SIGMASOFT®,” Raffa said. Tessy also sees an impact of the software on manufacturing, by helping validate the process before a mold is cut. Learo adds, “We are able to give the process technicians better process parameters before we even see the mold.”

Giving credit to their “Commitment to Innovation,” Tessy is experiencing record growth and expansion in their business, even in these unstable economic times. The implementation of innovative technologies continues to not only ensure profitability, but also contributes to its employees’ ability to further their careers, providing opportunities for advancement on multiple levels. Being part of an industry that is constantly evolving, the leadership at Tessy keeps encouraging their team to reach the highest standards and quality deliverables, which in the market drives all plastic molders to move forward and continue to reach out for new and more efficient ways of serving their customers. It is Tessy’s goal to strive for the most cost-effective, time-saving solutions to ensure quality products for its partners.

For more information, contact:

Matt Proske
Vice President
SIGMA Plastic Services, Inc.
10 N. Martingale Road, Suite 425
Schaumburg, IL 60173
Phone: 847-558-5602
Email: contact@3dsigma.com
Web: www.3dsigma.com

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On the Road to the Future in CNC Technology with Sinumerik from Siemens

Press Conference for the Americas — EMO Hannover / Hall 25, booth D33

• More integrated solutions needed in machine tool building
• Enhancement of CNC machining productivity and flexibility through a more highly-developed Sinumerik CNC portfolio
• Sinumerik and Integrated Drive Systems (IDS): optimum added value through consistent integration across the entire lifecycle
  

  Broad-based CNC competence: Siemens will be demonstrating how productivity, flexibility and safety can be increased in CNC production with an array of smart additions to its Sinumerik portfolio.

Industrial corporations are facing deep-rooted changes in the world of manufacturing. These changes are taking place alongside increasing integration of product development and production processes with the benefit of innovative software systems and high-performance software — a decisive step on the road toward a new industrial age in manufacturing. “Siemens has invested a lot of work in the integration of automation technology along the entire value chain over a period of many years, and is playing a cutting-edge role in shaping the future of production,” stated Bernd Heuchemer, Vice-President, Global Marketing and Communications, Siemens AG, Drive Technologies Division, Motion Control Systems Business, at a press conference held in the run-up to the EMO 2013 recently. “In the Sinumerik environment in particular, and consequently in the field of CNC production in general, Siemens has been heavily involved for many years already in the area of simulation and the virtual machine, as well as the integration into factory IT systems. Our aim is to drive this process of integration forward to ensure that the field of machine tool construction is also prepared to embrace the next step in the industrial revolution,” continued Heuchemer.

With its Sinumerik family, Siemens offers an integral portfolio of CNC for everything from simple machine tools through standardized machine concepts to modular premium solutions, complete with “smart machine” solutions for the economical manufacture of high-end workpieces. It is working towards the consistent expansion of this CNC technology expertise. “In the future, production models will demand ever greater productivity, flexibility and efficiency, while at the same time expecting simplified machine operation and production sequences. As it continues to develop the Sinumerik CNC portfolio, Siemens is working to satisfy all these expectations,” said Rajas Sukthankar, General Manager, Siemens Industry, Inc., Machine Tool Systems Business. The innovations presented by Siemens at the EMO 2013 will consequently focus on smart function improvements, which will make for greater CNC operating convenience, increase precision at the workpiece and allow greater machining safety across every category of machine, from the compact to the high-end solution. A new function to protect against unwanted component collisions will be showcased by Siemens, for example, alongside improvements to its cohesive Sinumerik Operate user interface, including upgraded simulation options.

The Sinumerik CNC portfolio is additionally playing an increasingly important role in preparing the ground for the next step in the evolution of CNC production, also within the framework of the Siemens Integrated Drive System (IDS). With a view to optimizing the addition of value across the entire process chain through consistent integration, IDS is used to integrate all the components of the drive train consistently into the complete production process environment. This also applies to Sinumerik CNC system solutions.

For every Sinumerik application, ideally coordinated system components such as high-powered Sinamics drives and Simotics motors have always been used as the ideal complements. Alongside horizontal integration of the entire drive train, with Sinumerik Integrate for Production, Siemens is also allowing vertical integration within the control architecture of industrial manufacturing automation. As the example of a leading passenger car manufacturer illustrates, this type of vertical and horizontal integration within the production process can speed up the series start for a new vehicle by up to 50 percent.

The integration across the entire product life cycle can in turn be implemented using suitable Product Lifecyle Management (PLM) software solutions from Siemens. This concept is already being implemented by leading metals processing industries such as the automotive, aerospace and medical technology sectors. This entails the increasing execution of product development and production planning onscreen, before a single machine tool has even been installed. If a modular machine is developed on a virtual basis right from the outset so that it can be fully simulated, time savings up to 40 percent can be achieved. In running operation, productivity increases of 10 percent or more are also made possible by continued simulation and optimization. At this year’s EMO, Siemens will be showcasing the further development of its PLM software, which encompasses scalable solutions for component production and further improved IT integration from the workpiece model through to the machine tool. Siemens will also be revealing the next stage in productivity for NC programming with the further development of its already popular PLM software, NX CAM.  Going forward, this software will include special industry-specific machining functions as well as access to a new Manufacturing Resource Library.

Siemens is extending its preparations for the next step in manufacturing to offer the machine tool building industry an emerging series of integrated solutions. An integrated workpiece measurement system, with a measurement accuracy of 30 nanometers deployed in the world’s biggest precision optics machine, allows the production of telescopes capable of seeing up to 13 billion light years into space.

For more information on Siemens SINUMERIK CNC, visit www.usa.siemens.com/cnc.

For specific product information and inquiries, call (800) 879-8079 ext. Marketing Communications or send an e-mail to: SiemensMTBUMarCom.industry@siemens.com.

Follow us on Facebook: www.facebook.com/SiemensCNC
or Twitter:  www.twitter.com/siemens_cnc_us

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Siemens Industry Sector is the world’s leading supplier of innovative and environmentally friendly products, solutions and services for industrial customers. With end-to-end automation technology and industrial software, solid vertical-market expertise, and technology-based services, the sector enhances its customers’ productivity, efficiency and flexibility. With a global workforce of more than 100,000 employees, the Industry Sector comprises the Industry Automation, Drive Technologies and Customer Services Divisions as well as the Metals Technologies Business Unit. For more information, visit http://www.usa.siemens.com/industry.
The Siemens Drive Technologies Division is the world’s leading supplier of products, systems, applications, solutions and services for the entire drive train, with electrical and mechanical components. Drive Technologies serves all vertical markets in the production and process industries as well as the infrastructure/energy segment. With its products and solutions, the division enables its customers to achieve productivity, energy efficiency and reliability. For more information, visit http://www.usa.siemens.com/drivetechnologies.

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Optimization of the Shooting and Curing Process for a Complex Core

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550°F Floor-Level Cabinet Oven for Heating Large Gears

No. 1030 is a 550ºF floor-level electric cabinet oven from Grieve, currently used for heating large gears at the customer’s facility.  Workspace dimensions of this oven measure 48” W x 48” D x 60” H.   40 KW are installed in Incoloy-sheathed tubular elements to heat the oven chamber, while a 2000 CFM, 2-HP recirculating blower provides horizontal airflow across the workload.

This Grieve cabinet oven features 6” insulated walls, aluminized steel exterior and interior, plus five levels of dual-lane roller conveyor rated at 300 lbs. per level.

Controls onboard No. 1030 include a digital indicating temperature controller, manual reset excess temperature controller with separate control contactors and a recirculating blower airflow safety switch.

For more information, please contact:

THE GRIEVE CORPORATION
500 Hart Road
Round Lake, IL  60073-2898
Phone:  (847) 546-8225
Fax:  (847) 546-9210
Web:  www.grievecorp.com
Email:  sales@grievecorp.com
Attention:  Frank Calabrese, VP

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Providing Risk Mitigation Solutions to the Medical Implant, Device, and Instrument Communities Through Ultrasonic Testing Capability and Expertise

CAROL STREAM, ILLINOIS – The demand has never been greater for specialized supply chains that deliver medical materials to meet the production demands of OEM’s. These businesses are acutely aware of the need to use quality metals and materials in their products to assure performance, durability and long-term reliability. Due to the recent revisions to ASTM standards F136 and F138, Banner Medical has installed a multi-axis, computer controlled Ultrasonic Inspection System designed and built by Matec Inspection Companies, Inc., for precision ground bars.

ASTM F136 and ASTM F138 are commonly specified standards in the design of titanium and stainless steel surgical implants; and recent revisions to each standard call for ultrasonic testing at final diameter for all centerless ground, or peeled and polished bars, which are greater than or equal to .375” in diameter.

“The decision to purchase this highly versatile inspection system was driven by the current and future needs of our customers. We are experiencing greater demand for ultrasonic testing of medical grade raw materials and the recent changes to ASTM standards F136 and F138 will increase demand even further in the very near term,” said Bob Khin, Vice President of Quality Assurance, Banner Medical.

“We recognize the impact these revisions will have on our customers. Ultrasonic testing at final diameter has the potential to add significant delays and cost to the supply chain. Our new ultrasonic inspection unit allows us to ensure the precision of centerless grinding and testing under one roof. We are providing our customers with a cost effective, time saving solution to the problems which could arise as manufacturers begin to comply with these changes. We will maintain the inventory, production capability, and testing equipment in a medical focused factory,” said Dan Stoettner, Executive Vice President and Chief Operating Officer.

To fully comply with industry testing standards, Banner Medical has hired additional qualified personnel to operate the equipment and implement the proper management systems including Rick Wallen, Director of Technical Services. He will assume full responsibility for the ultrasonic testing program. Rick was employed at Zimmer Inc. for 34 years in various roles and most recently served as Principal Engineer, Quality. He was responsible for all nondestructive testing requirements company-wide.

“We feel very fortunate to have Rick join our team. He is an industry recognized expert in ultrasonic testing and Quality Management Systems, and we are certain he will make an immediate impact within our organization. Rick is an ASTM certified Level III Engineer and an ASQ certified Quality Auditor. He is going to help us provide the very best service to our customers,” said Bob Khin.

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Banner Medical serves the medical device, implant, and instrument industry with medical-grade metal materials; Banner Medical is ISO 13485 and ISO 9001 certified, and FDA CFR part 820 compliant.

For more information:

BILL NORLANDER
Medical Products Specialist
494 East Lies Road
Carol Stream, IL 60188-9425
P:630.868.1230
F:630.653.7555
E: bnorlander@banner-medical.com
www.banner-medical.com

MIKE HADLEY
Supply Chain Manager
494 East Lies Road
Carol Stream, IL 60188-9425
P:630.868.1229
F:630.653.7555
E: mhadley@banner-medical.com
www.banner-medical.com

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Siemens Introduces North American Version of Sinamics S120 Cabinet Module Drives

North American users can now make full use of the benefits of a modular product, built to NEC (NFPA 70) standards, to configure common DC bus lineups and high horsepower drives, with optional UL/cUL listing

Siemens announces a new version of its popular Sinamics S120 Cabinet Module (CM) drive packages, compliant with North American standards and offered with optional UL/cUL listing. This unique product enables easy configuration of complex common DC bus lineups for multi-motor coordinated drive systems, as well as high horsepower (hp) stand-alone drives for a wide variety of industrial applications.

Key to the global growth of the Sinamics S120 CM range is its modularity and flexibility. Pre-designed, fully type-tested modules, including line side components, line infeeds (bus supplies) and motor inverters, all with a broad range of standard options, are selected and configured by the customer. Compared to the traditional approach of custom-engineered systems, this approach offers significant reduction in engineering and manufacturing lead times, which translates into reduced project costs and a compressed delivery schedule, while minimizing technical and commercial risk on even the most complex drive systems.

Individual cabinet modules from Siemens have a standardized power and control interface, which allows them to be freely positioned in a lineup that best suits the particular application and makes them easy to install and connect. The broad range of standard options including the DC bus current rating and enclosure type, for example, is available to tailor selections to best meet jobsite and environmental conditions. Despite standardization, this design offers a high degree of flexibility for both power and control circuits. For line side converters, there is a choice of non-regenerative Basic Line Module (diode rectifier) or fully regenerative Smart and Active Line Modules. Both of these are IGBT inverters, the Smart Line Module being a more basic six-pulse unit, while the Active Line Module offers low harmonics exceeding the demands of IEEE 519.  Unity or controllable power factor and DC bus voltage control allows stable operation of motors even on irregular power supply systems. Basic and Smart Line Modules can also be configured in 12-, 18- or 24-pulse systems for low harmonic operation. All these configurations are now compliant with the National Electrical Code (NFPA 70) and Short Circuit Current Ratings per UL508A supplement SB, up to 100 kA.

The SINAMICS S120 firmware, combined with Drive-CLiQ (the flexible backplane bus), allows users to assign control units multiple Line and Motor Modules, plus mount the control units and associated I/O and sensor modules anywhere within the line-up or even remotely in a centralized control cabinet or control room. Drive-CLiQ provides automatic electronic nameplate, real-time control data transfer, diagnostic and parameter value gathering and fault tolerant transfer protocols. For external control systems, high-speed industrial Ethernet communications can be parameterized for EtherNet/IP, PROFINET or Sinamics Link (peer-to-peer), while programming can be done via a dedicated port or Ethernet TCP on the Ethernet network simultaneously with Profinet or EtherNet /IP.

Sinamics S120 Cabinet Modules were designed to address the need for a complete, ready-to-connect-and-run drive system that enables customers to configure an enclosed drive lineup with a central line infeed (rectifier) and common DC bus, supplying power to multiple motor modules (inverters).  Typical uses for such systems requiring multi-motor coordinated drive systems include paper machines, steel rolling mills, test stands, cranes, mixers and oil/gas field equipment.  Very high horsepower single drive applications also benefit from this Siemens system.

The use of a common DC bus configuration with these new drive packages allows energy exchange between motors that are simply powering and others regenerating power back to the AC system, which can save up to 80% of the energy consumed when using standard installations.

For specific product information and inquiries, call (800) 879-8079 ext. Marketing Communications or send an e-mail to: SiemensMTBUMarCom.industry@siemens.com

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Siemens Introduces Four-Week Lead Time on Generation II Simotics® 1FK7 Servomotors

Field-replaceable 24-bit encoders in 10 styles and reduced lead times highlight new line of servomotors; three inertia versions, seven shaft heights on highly-configurable line

Siemens Industry, Inc. announces reduced lead times for its Generation II Simotics 1FK7 servomotors.  Highly-configurable to suit a wide variety of applications, this new line features seven shaft heights, Quick-Connect power connector and  high-accuracy 20- and 24-bit field replaceable encoders in 10 styles, all combined with a four-week lead time beginning July 1, 2013 — and ultimately reduced to three-weeks beginning January 1, 2014 on all models.

The Generation II servomotor offers three inertia versions — standard, high-dynamic for rapid acceleration jobs, and high-inertia for maximum smooth running.  These motors are designed for operation without external cooling and the heat is dissipated through the motor surface.  With 10 styles of field-replaceable encoders, the 1FK7 Generation II servomotors provide easy maintenance in the field, with reduced downtime and operating cost savings.  Further, a 10 percent improvement in continuous (S-1) power is achieved since the encoders are mechanically and thermally decoupled from the motor.  The mechanical decoupling also means the encoder is more resistant to vibration conditions on the machine.  In addition, there is no need for battery back-up on the absolute encoders.

Generation II Simotics 1FK7 servomotors provide users with  3x overload, 2.5 percent torque ripple, cross profiling for easier mounting, Siemens Drive-Cliq interface for easier field commissioning and unit recognition with the Siemens Sinamics S120 drive family, plain shaft or keyway design, three IP ratings and are supplied with or without holding brake.

The full application of engineering assistance and service of the global Siemens network supports this new line of servomotors.

For more information on these new Siemens servomotors, please visit www.usa.siemens.com/simotics.

For product information and inquiries, call +1 800 879 8079 ext. Marketing Communications or e-mail SiemensMTBUMarCom.industry@siemens.com.

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New Angle Head Line from Heimatec

Standard and custom styles available for all popular machine tools; offered for all tapers, including HSK and BT30; fixed and adjustable models

Heimatec, a world leader in live tools and multi-spindle drill heads, today announces immediate availability of its newest development, a line of standard and custom angle heads, available in all popular sizes and styles to accommodate today’s machine tools and CNC machining center builders.

Designed for heavy milling, deep drilling and tapping operations often found in the off-highway, energy, rail and other heavy-duty industries, this new Heimatec line of angle heads features twin or double twin sets of matched angular contact bearings plus a rear radial support bearing, ensuring maximum stability in use.

All the gears on these angle heads have inclined teeth made from high-resistance gear steel and have been specially hardened, ground and lapped in sets to provide the smoothest transmission output possible.

Heimatec angle heads are made from high-tensile strength aluminum. High-precision spindle bearings maintain the highest possible spindle concentricity.

Full 360º body rotation with positive compression locking, 90º incremental repositioning without indicating, maximum torque to 150 Nm, gear ratio 1:1 standard with others available, spindle speeds to 18,000 rpm and interchangeable torque arms are other standard features of this line from Heimatec.

CAT 40, BT 40, BT 30, HSK 63A, CAT 50, BT 50 and HSK 100A taper styles are available, as well as custom modifications such at 18” extension shafts. Heimatec offers a full one-year warranty on all parts and labor.

Click HERE to view a short video on the product.

For further information and literature, or to arrange a demo on this new line, please contact:

Preben Hansen, President
HEIMATEC INC.
16 E. Piper Lane Suite 129
Prospect Heights, IL 60070
Phone:  847-749-0633
Fax:  847-749-2445
Email: info@heimatecinc.com
Website: www.heimatecinc.com

Connect with Heimatec Inc:  

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Heimatec is an international tooling manufacturer, based in Renchen, Germany. Its experienced staff is dedicated to providing customers the most innovative tooling technology possible. In 2010, the company opened Heimatec Inc. in Prospect Heights, IL, near Chicago, to serve its growing North American customer base with sales and service, plus an extensive inventory of products. Heimatec serves the auto, aero, medical, off-highway, rail, energy, woodworking, composites and other industries, as well as an ever-increasing number of machine tool OEM’s worldwide.

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350°F Electric Shelf Oven for Curing Composites

No. 1014 is a 350ºF electric shelf oven from Grieve, currently used for curing composites at the customer’s facility. Workspace dimensions on this oven measure 84” W x 30” D x 54” H. 25 KW are installed in Incoloy-sheathed tubular elements to heat the oven chamber, while a 1000 CFM, 1-HP recirculating blower provides horizontal airflow across the workload.

This Grieve shelf oven features 4” insulated walls, aluminized steel exterior, Type 304, 2B finish stainless steel interior and six 200 lb. capacity (each) shelves supported by ball slides with shelves extending 30” in front of oven for easy loading/unloading.

Controls onboard No. 1014 include all safety equipment needed for handling flammable solvents, including explosion-venting door hardware, plus a 12-port vacuum manifold with pressure gauge and hand valve at each port, solenoid valve to relieve vacuum and 2-HP rotary vane vacuum pump with pre-filter.

For more information, please contact:

THE GRIEVE CORPORATION
500 Hart Road
Round Lake, IL  60073-2898
Phone:  (847) 546-8225
Fax:  (847) 546-9210
Web:  www.grievecorp.com
Email:  sales@grievecorp.com
Attention:  Frank Calabrese, VP

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