Publication: 25. Styczeń 2021 ktpe_newsdate_updated: 25. Listopad 2024

Medical devices with TPE’s soft-touch advantage


KRAIBURG TPE, a recognized global leader in superior TPE compounds, provides the THERMOLAST® M TPE compounds for a soft-touch feel and surface in medical device applications.

With accuracy and precision, medical devices, whether used in a home or in a healthcare setting, are expected to provide effective outcomes for a patient. The design of the instruments must, thus, be ergonomically driven to enable dexterity, control and comfort when handling the instruments.

A soft-touch surface promotes ease of use, and better control and grip, especially in hand-held or single-use medical devices. For self-administering in the home, a soft-touch surface can ensure proper and easy handling of medical devices for effective drug delivery and error-free performance.

Today, thermoplastic elastomers (TPEs) are widely used for a soft-touch surface and feel. Moreover, the varied mechanical properties of TPEs in medical device applications, such as ease of coloration, flexibility and purity, contribute to the aesthetic appearance and high usability of the products.

For manufacturers, TPEs are the perfect choice of materials, owing to their easy processing, for example, via injection molding or extrusion process.

KRAIBURG TPE, a global TPE manufacturer of a wide range of thermoplastic elastomer products and custom solutions for multiple industries, offers high quality and custom-engineered THERMOLAST® M compounds that conform to the soft-touch requirements of medical device applications.  

Taking a safe approach

For soft-touch surfaces in medical device applications, KRAIBURG TPE offers the THERMOLAST® M MC/AD/PA series of compounds that are sterilizable by using methods such as EtO gas, γ-gamma ray treatment (2 x 35 kGy) and β-ray (electron beam) treatment (2 x 35 kGy). The THERMOLAST® M series is also free of latex, PVC and phthalates, allowing it to be used for medical devices.

The THERMOLAST® M has been specially formulated for applications requiring medical approvals and conforms to standards such as ISO 10993-5 (Cytotoxicity) and ISO 10993-10 (Intracutaneous irritation).

The MC/AD/PA compounds have excellent adhesion to various polyamides such as PA6 and PA12, allowing for use in applications requiring soft-touch grips, sealing, flexible connectors, switches, and mats in the medical devices industry. The compounds can also be applied in handles, buttons and closures that require soft-touch surfaces for medical devices.

The compounds can be colored in various options using Pantone and RAL as a color reference, allowing for differentiation of end products.

Approved to exacting standards

KRAIBURG TPE’s THERMOLAST® M MC/tl series is certified to standards such as ISO 10993-10 (Intracutaneous injection), ISO 10993-5 (Cytotoxicity), ISO 10993-4 (Hemolysis), ISO 10993-11 (Acute systemic toxicity) and VDI 2017.

It comes in natural colors and can be colored in many ways. It has excellent adhesion to PP and PE, allowing it to be applied on mouthpieces and as a soft-touch element on medical devices.

The MC/tl series has optimized compression set and has excellent abrasion resistance, for applications that require high contact and friction such as handles and grips on medical devices and sealings on respiratory masks.

Medical Service Package

KRAIBURG TPE strives to maintain the standards of its products by providing a unique service package that focuses on customer needs. It does this by constantly recording the manufacturing process in the drug Masterfile (DMF); and by guaranteeing 24-month supply security and purity of raw materials through the commitment of suppliers.

It also has a dedicated production unit for the manufacture of THERMOLAST® M to ensure quality, safety and reliability of the compounds.

Download press release

In our media package you will find comprehensive information, graphics and pictures on the subject.

25.01.2021 MEDIA PACKAGE FOR Medical devices with TPE’s soft-touch advantage

Our Communication team is happy to assist you.

If you have any questions or would like more information, please contact our press spokesperson.

Juliane Schmidhuber

Mirna Pina


Latest News

Nowe materiały o bardzo dobrej adhezji do EPDM
02.05.2024 Nowe materiały o bardzo dobrej adhezji do EPDM Związki te wyznaczają nowy standard w technologii materiałowej, oferując przyczepność, trwałość i przetwarzalność. read more
KRAIBURG TPE targets sustainable TPE and innovative Automotive TPE solutions at T-PLAS 2023
18.08.2023 KRAIBURG TPE targets sustainable TPE and innovative Automotive TPE solutions at T-PLAS 2023 KRAIBURG TPE has launched its new sustainable TPEs comprising of up to 48% PCR and 50% PIR recycled content. Together with its latest automotive TPE solutions, the company is set to impress in the T-PLAS 2023 Exhibition from 20 until 23 September at Hall 102, Booth no. Q15, BITEC Bangkok. read more
Ukierunkowanie na gospodarkę o obiegu zamkniętym: KRAIBURG TPE rozszerza swoją ofertę o rozwiązania TPE z certyfikatem ISCC PLUS
26.04.2023 Ukierunkowanie na gospodarkę o obiegu zamkniętym: KRAIBURG TPE rozszerza swoją ofertę o rozwiązania TPE z certyfikatem ISCC PLUS Producent renomowanych elastomerów termoplastycznych z Waldkraiburg rozszerza swoją ofertę produktową o materiały z certyfikatem ISCC PLUS (International Sustainability and Carbon Certification). ISCC Plus jest międzynarodowym systemem certyfikacji wszystkich zrównoważonych surowców. Z innowacji tej skorzystają zwłaszcza klienci z sektora konsumenckiego i medycznego, otrzymają oni jednocześnie wsparcie w podejmowaniu kolejnych kroków w kierunku gospodarki o obiegu zamkniętym. read more
PIR-TPE: nowy materiał do produkcji elementów wyposażenia wnętrz samochodów, zgodny z najważniejszymi normami i obowiązującymi regulacjami.
21.04.2022 PIR-TPE: nowy materiał do produkcji elementów wyposażenia wnętrz samochodów, zgodny z najważniejszymi normami i obowiązującymi regulacjami. Materiał TPE do zastosowań motoryzacyjnych wewnętrznych, o wysokiej zawartości surowców wtórnych read more