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Find a converter

In today’s fast-moving medical device market, you need a converter who not only understands the industry, but consistently exceeds expectations. Solventum Premier Converters bring certified expertise backed by Solventum’s proven quality and innovation.

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Design-in business model

Solventum

Innovative material solutions

Converter network

Value added converting

A sterile-gowned female worker in a clean room standing next to equipment and touching the screen.

MedTech OEMs

Medical device solutions

Female patient checking her transdermal patch with a flash glucose monitor to measure her blood sugar levels with a simple scan.

Find the right Solventum Premier Converter for your application

Explore our network of trusted converter partners to discover the capabilities, expertise and locations that best align with your product needs.

Converter 
CountryPhone
Video 
ADDEV Materials Healthcare

USA 

UK

France

+1 262-255-6150 (USA)

+44 (1903) 750-000 (UK & France)

ADDEV Materials - Healthcare & Wellness
BDKUK+44 (0) 1473 659 059 
Beneli ABSweden+46 (0) 42-25 60 00Beneli AB
Boyd

USA

China

Mexico

Thailand

Germany

Singapore

+1 888-244-6931 
Converters, IncUSA+1 (215) 355-5400 
Cordica MedicalUSA+1 423-587-2199 
DielTech

Israel

USA

+972 8 942 0289

+1-561-725-4231 

 
FabriTEQUSA+1-855-727-3283 
Flow-nano Medical FilmsChina+86 1832-1438-669 
Hi-Tech ProductsUSA+1 (714) 670-2150 
InnovizeUSA+1-651-490-0000 
JBC TechnologiesUSA+1 444-327-4522JBC Technologies Precision Die-Cutting & Materials Converting
KX MedicalUSA+1-615-623-4080 
Linxens Healthcare

Sweden

France

+46 724 53 10 54 
M&C Specialties An ITW CompanyUSA+1 (800) 441-6996 
Marble Medical, a UFP Technologies CompanyUSA+1 (850) 385-4441 
Marian, Inc.

USA

China

Singapore

+1-800-773-0062 
PronatIsrael+972 50 888 9581 
Scapa HealthcareUSA+1-865-246-4264 
Strukmyer MedicalUSA+1-214-275-9595 
The Strouse CorporationUSA+1 800-410-8273 

FAQs

Read our comprehensive FAQ to quickly find clear answers to common converter questions.

Several bonding characteristics determine how well an adhesive performs in diagnostic applications, especially under stress or over time.  

  • Peel strength: Measures how well the adhesive resists separation from surfaces—important for maintaining bond integrity during handling or testing.  
  • Tack: Indicates initial stickiness, which helps with fast and accurate placement during assembly.  
  • Shear resistance: Ensures the adhesive can withstand lateral forces without shifting or failing.  
  • Long-term stability: Critical for maintaining performance over time, especially in devices with extended shelf life or prolonged use.  
  • Cohesive strength: Ability of the adhesive to remain intact (not split), minimizing residue transfer to bonded surfaces. 
  • Fluid/chemical resistance: Ability to resist swelling, softening, or leaching when exposed to samples, buffers, and assay reagents. 

These properties help ensure reliable bonding under various conditions in diagnostic applications.  

Surface energy is a measure of how readily a solid surface can be wetted by a liquid (and, by extension, how easily an adhesive can spread to make intimate contact). High surface energy materials (e.g., metals or glass) typically wet and bond more readily, while low surface energy (LSE) plastics (e.g., polyethylene, polypropylene) are harder to wet and therefore harder to bond without surface treatment or specialized adhesives. 

In microfluidic devices, surface energy (often discussed via water contact angle) helps predict how liquids will interact with channel walls and can influence capillary‑driven flow behavior. 

Measurement methods: 

  • Contact angle: A droplet’s angle on the surface—lower angles indicate higher surface energy.  
  • Dyne pens or solutions: Apply liquids of known surface tension; if the liquid wets out, it indicates the surface energy is at/above that dyne level. 

Bond failure or leakage may result from: 

  • Inconsistent adhesive thickness affecting channel sealing. 
  • Poor alignment between bonded layers. 
  • Incompatible surface energies between substrates. 
  • Mechanical stress during handling or testing. 

Bonding materials can influence assay results by: 

  • Altering channel dimensions or spacing. 
  • Introducing variability if registration shifts. 
  • Allowing leaks or air intrusion that disrupt fluid movement.