Sandvik Corporation Business Unit Medical Palm Coast of Palm Coast, FL at COMPAMED 2020 in Düsseldorf -- MEDICA - World Forum for Medicine
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Sandvik Corporation Business Unit Medical Palm Coast

1 Commerce Blvd, 32164 Palm Coast, FL
USA
Telephone +1 386 445-2000
Fax +1 365 446-2244
ms.spc@sandvik.com

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Contact

Jörg Karweg

Business Development Manager EMEA

Germany

Phone
+49 172 2004314

Email
joerg.karweg@sandvik.com

Ernesto Bastos

Business Development EMEA

Germany

Phone
+491707002943

Email
ernesto.bastos@sandvik.com

Gene Kleinschmit

Senior Product Manager

Palm Coast, USA

Phone
+1 386 627 3850

Email
gene.kleinschmit@sandvik.com

Jerry Blanton

Sales and Marketing Manager

Palm Coast, USA

Phone
+1 386 237 4414

Email
jerry.blanton@sandvik.com

Di Meng

Marketing and Sales China

Shanghai, China

Phone
+86 185 1520 2987

Email
di.meng@kanthal.com

Liddon Dell

Product Application Manager

Palm Coast, USA

Phone
+1 386 627 3849

Email
liddon.dell@sandvik.com

Visit us

Unsettled / NN

16.11.2020

Topic

all-day

Webinar: Coatings effect on wire-based components in medical devices

Selecting optimal coating(s) for wire-based components incorporated into medical devices can be a challenging task for even the most experienced design team due to the numerous and everchanging options promoted in the marketplace.

Take the opportunity to watch the free webinar online:
Copy the link to your browser ==> https://www.business-review-webinars.com/webinar/Medical_Devices/Coatings_effect_on_wirebased_components_in_medical_devices-xfkXDvVc 


Sandvik’s Palm Coast production unit offers more than forty (40) different polymer based stand-alone dip coating options which in many cases are combined to formulate a customer focused solution. Information available from brochures or digital media platforms offers some insight into options available to the product designer. However, product performance, manufacturability and cost considerations are usually not as well defined. Our goal for this webinar is to share our experience with those that are keen to learn more about the key interactive parameters that can help drive a better product design decision to get reliable long-time use of the products.

In general, polymer coatings are applied to metal/alloy wire for medical devices to provide either electrical isolation for signal/power transmission, a lubricious surface layer for reducing tissue damage and patient trauma and/or enhance the biocompatible nature of the wire-based component. Further processing is required to convert the coated wire into an active component in the device. Downstream operations can include forming operations such as coiling that add mechanical stress to the material system, selective coating removal for electrical connectivity and stranding to improve the flexibility of the overall lead system among other downstream processes. In order to select the optimal coating for the operation, it is critical to understand the follow-on procedures.

In the webinar, different polymer coating material types will be reviewed with respect to general properties and other primary reasons for selection based on the application or process considerations. The discussion will be limited to dip coating polymer materials vs other techniques such as extrusion or spray coating. Some generalized case studies will be included to help explain the method that has been useful to define the final polymer coating options.

Welcome to watch the webinar!

More Less

17.11.2020

Topic

all-day

Webinar: Coatings effect on wire-based components in medical devices

Selecting optimal coating(s) for wire-based components incorporated into medical devices can be a challenging task for even the most experienced design team due to the numerous and everchanging options promoted in the marketplace.

Take the opportunity to watch the free webinar online:
Copy the link to your browser ==> https://www.business-review-webinars.com/webinar/Medical_Devices/Coatings_effect_on_wirebased_components_in_medical_devices-xfkXDvVc


Sandvik’s Palm Coast production unit offers more than forty (40) different polymer based stand-alone dip coating options which in many cases are combined to formulate a customer focused solution. Information available from brochures or digital media platforms offers some insight into options available to the product designer. However, product performance, manufacturability and cost considerations are usually not as well defined. Our goal for this webinar is to share our experience with those that are keen to learn more about the key interactive parameters that can help drive a better product design decision to get reliable long-time use of the products.

In general, polymer coatings are applied to metal/alloy wire for medical devices to provide either electrical isolation for signal/power transmission, a lubricious surface layer for reducing tissue damage and patient trauma and/or enhance the biocompatible nature of the wire-based component. Further processing is required to convert the coated wire into an active component in the device. Downstream operations can include forming operations such as coiling that add mechanical stress to the material system, selective coating removal for electrical connectivity and stranding to improve the flexibility of the overall lead system among other downstream processes. In order to select the optimal coating for the operation, it is critical to understand the follow-on procedures.

In the webinar, different polymer coating material types will be reviewed with respect to general properties and other primary reasons for selection based on the application or process considerations. The discussion will be limited to dip coating polymer materials vs other techniques such as extrusion or spray coating. Some generalized case studies will be included to help explain the method that has been useful to define the final polymer coating options.

Welcome to watch the webinar!

More Less

18.11.2020

Topic

all-day

Webinar: Coatings effect on wire-based components in medical devices

Selecting optimal coating(s) for wire-based components incorporated into medical devices can be a challenging task for even the most experienced design team due to the numerous and everchanging options promoted in the marketplace.

Take the opportunity to watch the free webinar online:
Copy the link to your browser ==> https://www.business-review-webinars.com/webinar/Medical_Devices/Coatings_effect_on_wirebased_components_in_medical_devices-xfkXDvVc


Sandvik’s Palm Coast production unit offers more than forty (40) different polymer based stand-alone dip coating options which in many cases are combined to formulate a customer focused solution. Information available from brochures or digital media platforms offers some insight into options available to the product designer. However, product performance, manufacturability and cost considerations are usually not as well defined. Our goal for this webinar is to share our experience with those that are keen to learn more about the key interactive parameters that can help drive a better product design decision to get reliable long-time use of the products.

In general, polymer coatings are applied to metal/alloy wire for medical devices to provide either electrical isolation for signal/power transmission, a lubricious surface layer for reducing tissue damage and patient trauma and/or enhance the biocompatible nature of the wire-based component. Further processing is required to convert the coated wire into an active component in the device. Downstream operations can include forming operations such as coiling that add mechanical stress to the material system, selective coating removal for electrical connectivity and stranding to improve the flexibility of the overall lead system among other downstream processes. In order to select the optimal coating for the operation, it is critical to understand the follow-on procedures.

In the webinar, different polymer coating material types will be reviewed with respect to general properties and other primary reasons for selection based on the application or process considerations. The discussion will be limited to dip coating polymer materials vs other techniques such as extrusion or spray coating. Some generalized case studies will be included to help explain the method that has been useful to define the final polymer coating options.

Welcome to watch the webinar!

More Less

19.11.2020

Topic

all-day

Webinar: Coatings effect on wire-based components in medical devices

Selecting optimal coating(s) for wire-based components incorporated into medical devices can be a challenging task for even the most experienced design team due to the numerous and everchanging options promoted in the marketplace.

Take the opportunity to watch the free webinar online:
Copy the link to your browser ==> https://www.business-review-webinars.com/webinar/Medical_Devices/Coatings_effect_on_wirebased_components_in_medical_devices-xfkXDvVc


Sandvik’s Palm Coast production unit offers more than forty (40) different polymer based stand-alone dip coating options which in many cases are combined to formulate a customer focused solution. Information available from brochures or digital media platforms offers some insight into options available to the product designer. However, product performance, manufacturability and cost considerations are usually not as well defined. Our goal for this webinar is to share our experience with those that are keen to learn more about the key interactive parameters that can help drive a better product design decision to get reliable long-time use of the products.

In general, polymer coatings are applied to metal/alloy wire for medical devices to provide either electrical isolation for signal/power transmission, a lubricious surface layer for reducing tissue damage and patient trauma and/or enhance the biocompatible nature of the wire-based component. Further processing is required to convert the coated wire into an active component in the device. Downstream operations can include forming operations such as coiling that add mechanical stress to the material system, selective coating removal for electrical connectivity and stranding to improve the flexibility of the overall lead system among other downstream processes. In order to select the optimal coating for the operation, it is critical to understand the follow-on procedures.

In the webinar, different polymer coating material types will be reviewed with respect to general properties and other primary reasons for selection based on the application or process considerations. The discussion will be limited to dip coating polymer materials vs other techniques such as extrusion or spray coating. Some generalized case studies will be included to help explain the method that has been useful to define the final polymer coating options.

Welcome to watch the webinar!

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Our range of products

Product categories

  • 01  Manufacturing of components
  • 01.01  Electronic manufacturing services (EMS)
  • 01.01.06  Cable assembly

Cable assembly

  • 01  Manufacturing of components
  • 01.05  Surface treatment
  • 01.05.03  Surface coating
  • 03  Services
  • 03.04  Design and development
  • 03.04.01  Product design, product development
  • 05  Components, modules, OEM equipment
  • 05.11  Guide wires
  • 06  Electrical components, electronical components
  • 06.02  Electromechanical components
  • 06.02.01  Cables
  • 07  Microtechnology
  • 07.04  Microsensors
  • 07  Microtechnology
  • 07.05  Microelectronics
  • 07  Microtechnology
  • 07.11  Other microtechnology
  • 08  Raw materials, materials, adhesives
  • 08.02  Metals

Our products

Product category: Product design, product development

Streamlining medical device development to get your product to market fast

For Sandvik, the key to streamlined development lies in the early stages. Optimised communication between teams, small scale prototyping and leveraging experience speeds up the development process and minimises waste.

Developing partnerships with customers has been at the core of Sandvik’s company ethos since its founding. By aligning our team with that of the customer, effective communication optimises the development process.

While many component manufacturers will assess the need from an initial drawing or print from a customer and make a large sample based on the perceived requirements, Sandvik first makes a prototype for customers to test.

“One way we help speed up the process relative to other suppliers is that we’re willing to make these very small custom prototype batches for customers so that they can truly tease out all the issues that they may have with the design,” explains Gary Davies, Production Manager at Sandvik. “This is a very iterative process where we make a prototype and they test it out. They can then provide some feedback and this may happen two or three times until we’ve settled on the most effective design.”

 “Sometimes the customer doesn’t know exactly what they need, and if they request a large sample of a product that’s not useful to them, it could be a waste of time, effort and money. Small scale prototyping means that they can find a suitable product having only used two or three prototypes to get there.”

Here, Sandvik can leverage its experience to provide customers with suggestions and not need to start over again during the prototype stages. In many cases, this may involve offering solutions that the customer was not aware of.

Once an agreement is made about what the product needs in terms of physical dimensions, chemical properties and other configurations, Sandvik takes the customer through the full qualification and validation process that’s required by the regulatory bodies. From initial design and prototyping to refining and validating the final product, Sandvik works to ensure that development is optimised to get medical devices to market fast.

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Product category: Surface coating

Product performance, manufacturability and cost considerations with coating selections

Selecting optimal coating(s) for wire-based components incorporated into medical devices can be a challenging task for even the most experienced design team due to the numerous and everchanging options promoted in the marketplace. 

Sandvik offers more than forty (40) different polymer based stand-alone dip coating options under the trademark EXERA® which in many cases are combined to formulate a customer focused solution. Information available from brochures or digital media platforms offers some insight into options available to the product designer. However, product performance, manufacturability and cost considerations are usually not as well defined. 

Let us share our experience ;
  • How to select the optimal coating(s) for wire-based components incorporated into medical devices.
  • About the key interactive parameters that can help drive a better product design decision.
  • About polymer coating material types with respect to general properties and other primary reasons for selection based on the application or process considerations.
  • About the method that has been useful to define the final polymer coating options.

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Product category: Microelectronics

Precision wire in medical microtechnology devices

Making Sandvik ’s entrance into the medical devices sector in which ultra-fine wire is used in the applications, the company introduced the EXERA® trademark in 2016 to wire-based components that are custom made to transmit, sense or stimulate within the human body. Since entering the medical devices field, Sandvik’s history and expertise in stainless steel has been invaluable.

The ultra-fine wire is also used in other microtechnology devices. Besides ultra-fine wire Sandvik also produces micro-tubes and strip steel for various microtechnology and medical applications.

Working with more than 200 alloys, and specializing in choosing the best materials and configurations, EXERA® wire-based components are used for a variety of medical applications including vascular therapy, biosensing and neurostimulation. So far, they have been used for devices such as;

  • Vascular therapy:
    Catheters and guidewires: Medical wire requires good corrosion and moderate tensile strength, fatigue and relaxation resistance.

    Pacing leads: Medical wire will generally need ultra-high strength, ductility, toughness and very good corrosion resistance. Sandvik 12R10 HV medical wire and Sandvik 316LVM medical wire are used for these sensors, catheters and heart mapping/monitoring devices.

  • Cochlear remediation:
    Cochlear implants: Sandvik offers high-quality medical wires produced from platinum- iridium alloys to be encased in the silicone of the implant’s electrode array.

    Middle ear implants: These devices require a tightly coiled metal wire for sound transmission. Sandvik offers coiled wires with a polymer or PTFE coating.

    Bone conducting systems: Medical wire is used in these devices helps transmit energy to the transducer that is directly in contact with the skull.

  • Sensing solutions:
    Thermocouple: Two or more wires made from different metals are coupled to provide a variable EMF response at different temperatures.

    Glucose sensor: This device requires a fine wire for a sensor thinner than a needle.

    Electrical sensors: Sandvik categorizes these devices into multi-electrode arrays and tetrodes.
  • Stimulation therapy:
    Deep brain stimulations: Sandvik offers high-quality conductive wires with high durability properties. These form an essential part of modern neurostimulation devices.

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Product category: Cable assembly

Cable configurations

Single strand or multi-filar cables can be manipulated into different cable configurations. Coatings, such as PTFE or polymer, can be applied to any cable arrangement. 

Single strand wire configurations can also be formed into multi-filar or microcable arrangements. 

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Product category: Guide wires

High quality wire for making guide wires

Sandvik offers an extensive range of wire for making guidewires which act as an integral part of medical devices used to treat cardiovascular, endovascular and peripheral vascular disorders.

Guidewires access a patient’s coronary and peripheral vascular system for a variety of diagnostic and therapeutic medical procedures. Guidewires are generally used as a guide for the purpose of placing and guiding large devices such as balloon dilation catheters during percutaneous transluminal coronary angioplasty (PTCA). When the tip of the devices reaches the intended endpoint, the wires act as a guide which is followed by the large catheters for easier transfer to the treatment site. Guidewires are characterized by properties such as moderate tensile strength, good corrosion resistance, and moderate fatigue and relaxation resistance.

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Product category: Cables

Cable value added operations

Sandvik offer an extensive portfolio of added value operations regarding cable manufacturing. We invite you to collaborate directly with our engineers to manipulate and modify our capabilities to exceed your needs. 

Some cable value addeded operations:
  • Cut to lenght
  • Coiling
  • Mechanical assembly
  • Lead finishing (stripping and forming)
  • Twisting and stranding to custom cable solutions
  • Straightening (mechanical or thermal treatment)

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Product category: Microsensors

Microsensors - an indispensable tool in modern medical applications

Microsensors becomes smaller and smaller and more advanced and is today an indispensable tool in many medicial applications. They are used in various continous measurement devices to measure blood sugar, temperature, pressure, Ph value, flow volume or respiratory values like oxygen or carbon dioxide. 

The developement of integrated sensors also becomes more and more desireble so that you can measure many different values at the samt time avoiding to have several catheters inserted into the body increasing the risk of infections.

What we find with a lot of our customers is that they’re looking at more advancements in their designs – they don’t just want a precision wire, they need precise, multifunction wires. Sandvik has been assisting for the past couple of years in the design of a composite wire that has different elements incorporated into that one wire system. One part of the wire is used to locate the sensing device inside the body, almost like a smart guidewire. Another senses heat, another senses something else. So we’re really at the top of our game with that creation.

Looking toward the future
In addition to the new composite wire there is another bit of research that’s really set to change the preventative medicine scene: There’s a new device Sandvik is getting involved with bringing to the marketplace that will prevent and manage heart failure before it gets to an acute stage. The wire is inserted in your cardiovascular system and there’s an antenna that’s attached to this sensor –so the whole system provides a continuous output of blood flow and pressure, that would give the physician an indication that you’re starting on the early stages of heart failure and exactly where the problem areas are. They then start you on a remedial path long before you can ever be considered acute.

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Product category: Other microtechnology

Ultra-fine wire for microtechnology devices

Besides offering high quality precision wire to medical applications the fine wire is also used in various other microtechnology devices.

Sandvik offers fine wire in a wide range of stainless steels and nickel alloys including resistance and resistance heating alloys. The wire is available in sizes ranging down to 10 microns.

The fine wire is supplied in round or shaped form and is delivered with or without insulation and coating. Sandvik's fine wire is typically used in applications, such as:

  • Bonding wire
  • Computer disc drives
  • Electronic components
  • Heating applications like small heaters
  • Loudspeaker applications
Fine wire insulation and coating
Sandvik offers several types of coatings including PTFE coating and adhesive bondcoats for its fine wire, all available in multiple colors.

For insulation and bondable coatings of fine wire Sandvik uses mainly a continuous 'flood coating' process but can also offer an extruded coating process if required.  The Fflood coating' process gives the wire quality and performance benefits over other techniques applied for fine wire, as 'flood coating' guarantees a complete coating over the wire surface, which is both consistent and extremely tenacious.

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Product category: Metals

From melting pot to medical devices

As one of the world’s leading metal producers and metallurgy pioneers we have strict control over our supply chain. This also means that advances and adaptations occur fast here. In other words, at Sandvik, innovation literally begins from the ground up.

For over 150 years, Sandvik has maintained a world-leading position in materials engineering and manipulation. Our operations are based on unique expertise in molecular technology and extensive insight into industrial processes. We invest substantially in research and development and maintain close cooperation with our customers and suppliers. From our beginning as a pioneer in malleable steel with the perfecting of the Bessemer method, to our commitment to high value-added products in advanced steels and special alloys, we continue to set the industry standard.

Today we offer more than 200 alloys as standard but custom made alloys are made upon request. Together we can design a product that cannot be found anywhere else in the world. 

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Company news

Date

Topic

Download

Nov 10, 2020

EXERA® medical wire and wire-based components in China

Follow the latest news about EXERA®  medical wire and wire-based components on WeChat.

The EXERA® products are a vital part of many medical devices to transmit, sense or stimulate within the human body. Since entering the medical devices field, Sandvik’s history and expertise in stainless steel has been invaluable. 

Working with more than 200 alloys, and specializing in choosing the best materials and configurations, EXERA® wire-based components are used for a variety of medical applications including vascular therapy, biosensing and neurostimulation. So far, they have been used for devices such as;

Vascular therapy:
Catheters and guidewires: Medical wire requires good corrosion and moderate tensile strength, fatigue and relaxation resistance.
Pacing leads: Medical wire will generally need ultra-high strength, ductility, toughness and very good corrosion resistance.
Sandvik 12R10 HV medical wire and Sandvik 316LVM medical wire are used for these sensors, catheters and heart mapping/monitoring devices

Cochlear remediation:
Cochlear implants: Sandvik offers high-quality medical wires produced from platinum- iridium alloys to be encased in the silicone of the implant’s electrode array.
Middle ear implants: These devices require a tightly coiled metal wire for sound transmission. Sandvik offers coiled wires with a polymer or PTFE coating.
Bone conducting systems: Medical wire is used in these devices helps transmit energy to the transducer that is directly in contact with the skull.

Sensing solutions:
Thermocouple: Two or more wires made from different metals are coupled to provide a variable EMF response at different temperatures.
Glucose sensor: This device requires a fine wire for a sensor thinner than a needle.
Electrical sensors: Sandvik categorizes these devices into multi-electrode arrays and tetrodes

Stimulation therapy:
Deep brain stimulations: Sandvik offers high-quality conductive wires with high durability properties. These form an essential part of modern neurostimulation devices.

Sandvik in China 
The Chinese market is of great importance to Sandvik and the company have been operating in the country for many years. Looking at the medical device market in China it's increasing in the same pace as the middle class population is becoming an ever larger segment with rising affordability and increase in their healthcare spendings. Simultanely it's a growing geriatric population and an escalated prevalence of diseases and disorders.

Besides sales offices in many of the biggest cities Sandvik also have a R&D Center situated in Zhenjiang which brings Sandvik closer to its customers, providing better and faster support, and will make it easier to identify new market needs and develop new products in close cooperation with Chinese customers. 

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Oct 27, 2020

Life Changing Innovations from Sandvik

Check out the latest campaign from Sandvik featuring the company's medical solutions. 

Sometimes life changes in ways you did not see coming. You had an accident and lost a limb or woke up with Parkinson’s disease or Diabetes. Or maybe you were born deaf and could not hear a sound. We want to empower people to lead their everyday lives with quality. Our medical solutions make it possible.

On the campaign site you will also read more about the latest news related to 3D printing and titanium powder – a life-changing combination! The possibility of individualization and on-demand availability of implants, prostheses and other medical devices will affect the lives of many people.

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Oct 27, 2020

Webinar about product performance, manufacturability and cost considerations with coating selections

Selecting optimal coating(s) for wire-based components incorporated into medical devices can be a challenging task for even the most experienced design team due to the numerous and everchanging options promoted in the marketplace.
 
In the recorded webinar made by the leading engineers at Sandvik different polymer coating material types will be reviewed with respect to general properties and other primary reasons for selection based on the application or process considerations. The webinar showed that 60% felt that finding the right coating is the most challenging step in the design process in order not to enconter failurs further down in the manufacturing process.

Sandvik Palm Coast's production unit offers more than forty (40) different polymer based stand-alone dip coating options which in many cases are combined to formulate a customer focused solution. Information available from brochures or digital media platforms offers some insight into options available to the product designer. However, product performance, manufacturability and cost considerations are usually not as well defined.  In general, polymer coatings are applied to metal/alloy wire for medical devices to provide either electrical isolation for signal/power transmission, a lubricious surface layer for reducing tissue damage and patient trauma and/or enhance the biocompatible nature of the wire-based component.

Further processing is required to convert the coated wire into an active component in the device. Downstream operations can include forming operations such as coiling that add mechanical stress to the material system, selective coating removal for electrical connectivity and stranding to improve the flexibility of the overall lead system among other downstream processes. In order to select the optimal coating for the operation, it is critical to understand the follow-on procedures.

 The discussion  in the webinar will be limited to dip coating polymer materials vs other techniques such as extrusion or spray coating. Some generalized case studies will be included to help explain the method that has been useful to define the final polymer coating options.

The goal for this webinar is to share our experience with those that are keen to learn more about the key interactive parameters that can help drive a better product design decision to get reliable long-time use of the products.

More Less

Oct 27, 2020

Sandvik Materials Technology Expands to Tucson, Arizona

Second U.S. Location to Manufacture Fine Medical Wire and Components.

Sandvik Materials Technology, a world-leading developer and manufacturer of advanced stainless steels and special alloys, announces today plans to expand its operations of precision medical wire and wire-based components to Tucson, Arizona.
Sandvik has leased 8,800 square feet of space at 2424 East Aragon Road near the Tucson International Airport. The full expansion over 5 years will add an additional 20 jobs primarily in operations and manufacturing. The facility is scheduled to be operational in Q1 2021.

Sandvik Materials Technology is a business area of Sandvik, a Stockholm-based, high-tech and global engineering Group specializing in materials, metal cutting, mining/rock and additive manufacturing technology. In the medical business, Sandvik develops, manufactures and refines precision medical wire and wire-based components under the brand name EXERA®.

Located in Palm Coast, Florida, the company began looking at additional manufacturing sites to expand production capacity. The selection of the American South West provided an opportunity to expand to a geographically different climate.

Gary Davies, Head of Business Unit Medical“We needed a west coast location near our customers and a superior technical workforce, which we found at the University of Arizona, Pima Community College and Arizona State University. Tucson really checked all the boxes for us," said Gary Davies, Head of Business Unit Medical, Sandvik Materials Technology.

Steve Cohen of PICOR handled lease negotiations. Partners in the project include the Arizona Commerce Authority, the City of Tucson, Pima County and Pima Community College.

“Sandvik Materials Technology’s decision to expand their operations in Tucson is good news for Southern Arizona’s economy,” said Governor Doug Ducey. “Arizona has a lot to offer businesses, from a pro-business environment to a talented workforce and exceptional quality of life, and we’re glad to have high-tech companies like Sandvik bringing more jobs and investment to our state.”

"The decision by Sandvik to expand its operations in Southern Arizona really validates that our position as a biotech center is strong and growing,” said Joe Snell, president & CEO of Sun Corridor Inc. "Sandvik is an incredible company whose presence benefits us greatly."

“Tucson’s rapidly growing bioscience industry and skilled talent pool continue to attract industry-leading companies seeking the ideal location for growth,” said Sandra Watson, Arizona Commerce Authority President & CEO. “We congratulate the Sandvik team on its continued growth and success!”

“Sandvik Materials Technology will provide needed jobs for our technical workforce here in Pima County,” said Pima County Administrator Chuck Huckelberry. "We thank Sandvik for their confidence and investment in Tucson."

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About us

Company details

EXERA® is the brand for fine medical wire and wire-based components from Sandvik used in medical devices and applications and which are custom made to transmit, sense or stimulate within the human body. 

Typical applications where the wire-based components are used in are cardiovascular devices such as pacemakers, sensors such as Contious Glucose Monitors (CGMs) for diabetes care or stimulation therapy such as Deep Brain Stimulation (DBS) for Parkinson's or epilepsy to control tremors.

Medical devices are becoming more intelligent and tailor-made to unique applications. Sandvik offer customers the opportunity to co-design innovative products that meet fast-changing expectations on stimulation, connectivity and safety.

The customizable options range from stripped wire, multi-cabling and coiling to EXERA® high tolerance coatings, as well as more than 200 different alloys and custom melts on request.

The medical wire and wire-based components are manufactured at the Sandvik production unit in Palm Coast, Florida, USA. In addition to co-designing and developing fine medical wire under cleanroom conditions, Sandvik offers OEM’s globally the ability to combine wire concepts in value-added components. 

As a strong design partner, the Sandvik team can help device manufacturers aim for top quality products related to everything from glucose and temperature monitoring and FFR implants to next generation pacemakers

This agile production unit combines the advantages of a custom, precision wire manufacturer with the backing of the globally integrated and resource rich Sandvik Group.

Sandvik is a global high-tech engineering group with 40,000 employees in 130 countries and operations concentrated on three core business areas: Sandvik Machining Solutions, Sandvik Mining and Rock Technology and Sandvik Materials Technology to which the medical wire business belong.

  • Member of IVAM
  • Member of Swedish Medtech
  • Member of China Association for Medical Devices Industry
Read the stories from people with life-changing medical solutions:
  • https://www.materials.sandvik/en/campaigns/life/

For  more information visit:

  • https://exera.sandvik 
  • https://www.medicaldevice-network.com/precision-medical-wire/

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Company data

Export content

> 75%

Number of employees

> 5000

Foundation

1861

Area of business
  • Electrical and electronic components
  • Raw materials and adhesives
  • Manufacturing Services
  • Services