Creating Material Change

 

 

We are a global technology solutions company passionate about creating the next generation of advanced materials.

We bring together cutting-edge technology with engineering know-how to enhance the performance of products and materials thus delivering business value for our customers.

Innovation underpins everything we do.

 

 

About Us

Haydale is an advanced materials company. Our business includes functionalized graphene and single crystal silicon carbide microfiber and fiber technology. Our materials are used to enhance the mechanical, thermal and electrical properties of ceramics, polymers and metals.

Applications

Our materials have a wide range of applicability, from ceramics, to polymers, to metal matrix composites. Our products impart toughness and durability, and survive in the most challenging environments. Applications include ceramic cutting tools, wear resistant technical ceramics, inks and coatings, and composites.

Creating Material Change with these products

[et_pb_image_n10s admin_label="SI-TUFF™ SF-1 Microfiber for Ceramics" src="/wp-content/uploads/2018/06/Silar_Whiskers_560x200-1-home.jpg" n10s_type="seoul" title1_overlay="SI-TUFF™ SF-1 Microfiber for Ceramics" caption_overlay="SI-TUFF™ Silicon Carbide Microfibers are used in high performance ceramic cutting tools, reinforced technical ceramics, polymer derived ceramics, and ceramics resulting from 3D printing. Composites reinforced with SI-TUFF™ exhibit optimum fracture toughness, wear resistance, dimensional stability, thermal dissipation, and thermal shock resistance." caption_orientation="left" image_as_url="on" url="/materials/si-tuff-sic-microfiber-for-ceramics/" button_url="https://www.haydale.com/industries/" button_text="Discover More" button_position="top-left" animation="off" image_alpha_hover="0.8" use_overlay_gradient="on" overlay_orientation="to right" overlay_color1="rgba(0,0,0,0.25)" overlay_color_stop1="4" overlay_color2="rgba(0,0,0,0.25)" overlay_orientation_hover="to right" overlay_color1_hover="rgba(89,196,197,0.9)" overlay_color2_hover="rgba(89,196,197,0.9)" overlay_color_stop2_hover="38" _builder_version="3.0.61" header_font="|on|||" button_icon="%%28%%" button_icon_color="#ffffff" button_on_hover="off" size="et-pb-post-main-image-fullwidth" show_in_lightbox="off" url_new_window="on" include_button="off" button_url_new_window="off" mix_blend_mode="normal" overlay_color_stop1_hover="0" sticky="off" align="left" always_center_on_mobile="on" border_style="solid" custom_button="off" button_letter_spacing="0" button_icon_placement="right" button_letter_spacing_hover="0" header_text_color="#ffffff" module_class="hover-color" text_text_color="#ffffff" text_font="|on|||"]

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<img src="https://www.haydale.com/wp-content/uploads/2017/07/jacky-lo-169262.jpg" alt="" />
<div class="n10s-overlay">
<h2>AVIATION</h2>
<p class="description">Haydale has developed materials which could protect aircraft from lightning strike. By adding a specific electrically conductive graphene into the resin component of carbon fibre, we have increased through-thickness electrical conductivity by 600%.</p>

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</div>
</div>
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[/et_pb_image_n10s][et_pb_image_n10s admin_label="SI-TUFF™ SiCp Silicon Carbide Particulate " src="/wp-content/uploads/2018/05/bucketSample-1.jpg" n10s_type="seoul" title1_overlay="SI-TUFF™ SiCp Silicon Carbide Particulate " caption_overlay="Strengthens and toughens polymer systems, including high performance coatings and 3D printed products. Low loading levels of SI-TUFF™ improves modulus, strength, scratch, and wear resistance. It also increases hardness, enhances thermal conductivity and temperature stability. Increase in service life is typically 20-35%, with 50% and above observed in some applications." caption_orientation="left" image_as_url="on" url="/materials/si-tuff-sicp-silicon-carbide-particulate/" include_button="off" button_text="Find Out More" button_position="bottom-right" animation="off" image_alpha_hover="0.8" use_overlay_gradient="on" overlay_orientation="to right" overlay_color1="rgba(0,0,0,0.25)" overlay_color_stop1="4" overlay_color2="rgba(0,0,0,0.25)" overlay_orientation_hover="to right" overlay_color1_hover="rgba(89,196,197,0.9)" overlay_color2_hover="rgba(89,196,197,0.9)" overlay_color_stop2_hover="38" _builder_version="3.0.61" header_font="|on|||" button_icon="%%28%%" button_icon_color="#ffffff" size="et-pb-post-main-image-fullwidth" show_in_lightbox="off" url_new_window="on" button_url_new_window="off" mix_blend_mode="normal" overlay_color_stop1_hover="0" sticky="off" align="left" always_center_on_mobile="on" border_style="solid" custom_button="off" button_letter_spacing="0" button_icon_placement="right" button_letter_spacing_hover="0" header_text_color="#ffffff" module_class="hover-color" text_font="|on|||"]

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<img src="https://www.haydale.com/wp-content/uploads/2017/07/jacky-lo-169262.jpg" alt="" />
<div class="n10s-overlay">
<h2>AVIATION</h2>
<p class="description">Haydale has developed materials which could protect aircraft from lightning strike. By adding a specific electrically conductive graphene into the resin component of carbon fibre, we have increased through-thickness electrical conductivity by 600%.</p>

</div>
</div>
</div>
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[/et_pb_image_n10s]
[et_pb_image_n10s admin_label="C-TUFF™ Ceramic Blends" src="/wp-content/uploads/2018/06/ceramic_blends-home.jpg" n10s_type="seoul" title1_overlay="C-TUFF™ Ceramic Blends" caption_overlay="Engineered blends of high-purity aluminum oxide and C-TUFF™ silicon carbide microfiber. Characterized by extreme hardness, outstanding compressive strength, and rigidity. Offers exceptional fracture resistance, wear resistance, thermal shock resistance, and dimensional stability." caption_orientation="left" image_as_url="on" url="/materials/c-tuff-ceramic-blends/" include_button="off" button_text="Find Out More" button_position="bottom-right" animation="off" image_alpha_hover="0.8" use_overlay_gradient="on" overlay_orientation="to right" overlay_color1="rgba(0,0,0,0.25)" overlay_color_stop1="4" overlay_color2="rgba(0,0,0,0.25)" overlay_orientation_hover="to right" overlay_color1_hover="rgba(89,196,197,0.9)" overlay_color2_hover="rgba(89,196,197,0.9)" overlay_color_stop2_hover="38" _builder_version="3.0.61" header_font="|on|||" button_icon="%%28%%" button_icon_color="#ffffff" size="et-pb-post-main-image-fullwidth" show_in_lightbox="off" url_new_window="on" button_url_new_window="off" mix_blend_mode="normal" overlay_color_stop1_hover="0" sticky="off" align="left" always_center_on_mobile="on" border_style="solid" custom_button="off" button_letter_spacing="0" button_icon_placement="right" button_letter_spacing_hover="0" header_text_color="#ffffff" module_class="hover-color" text_font="|on|||"]

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<img src="https://www.haydale.com/wp-content/uploads/2017/07/jacky-lo-169262.jpg" alt="" />
<div class="n10s-overlay">
<h2>AVIATION</h2>
<p class="description">Haydale has developed materials which could protect aircraft from lightning strike. By adding a specific electrically conductive graphene into the resin component of carbon fibre, we have increased through-thickness electrical conductivity by 600%.</p>

</div>
</div>
</div>
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[/et_pb_image_n10s][et_pb_image_n10s admin_label="SI-TUFF™ SF-7 SiC Fiber" src="/wp-content/uploads/2018/06/series_7_fiber_closeup-home.jpg" n10s_type="seoul" title1_overlay="SI-TUFF™ SF-7 SiC Fiber" caption_overlay="Cost-effective, high purity discrete silicon carbide fibers for CMCs and MMCs, as well as polymer derived ceramics, and ceramics resulting from 3D printing. The material cost of SI-TUFF™ is an order of magnitude lower than other commercial SiC fiber offerings, opening up the doors for a range of new products and applications." caption_orientation="left" image_as_url="on" url="/materials/si-tuff-sf-7-sic-fiber/" include_button="off" button_text="Find Out More" button_position="bottom-right" animation="off" image_alpha_hover="0.8" use_overlay_gradient="on" overlay_orientation="to right" overlay_color1="rgba(0,0,0,0.25)" overlay_color_stop1="4" overlay_color2="rgba(0,0,0,0.25)" overlay_orientation_hover="to right" overlay_color1_hover="rgba(89,196,197,0.9)" overlay_color2_hover="rgba(89,196,197,0.9)" overlay_color_stop2_hover="38" _builder_version="3.0.61" header_font="|on|||" button_icon="%%28%%" button_icon_color="#ffffff" size="et-pb-post-main-image-fullwidth" show_in_lightbox="off" url_new_window="on" button_url_new_window="off" mix_blend_mode="normal" overlay_color_stop1_hover="0" sticky="off" align="left" always_center_on_mobile="on" border_style="solid" custom_button="off" button_letter_spacing="0" button_icon_placement="right" button_letter_spacing_hover="0" header_text_color="#ffffff" module_class="hover-color" text_font="|on|||"]

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<img src="https://www.haydale.com/wp-content/uploads/2017/07/jacky-lo-169262.jpg" alt="" />
<div class="n10s-overlay">
<h2>AVIATION</h2>
<p class="description">Haydale has developed materials which could protect aircraft from lightning strike. By adding a specific electrically conductive graphene into the resin component of carbon fibre, we have increased through-thickness electrical conductivity by 600%.</p>

</div>
</div>
</div>
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[/et_pb_image_n10s]
[et_pb_image_n10s admin_label="SI-TUFF™ Performance SiC for Coatings, Polymers, 3D Printing" src="/wp-content/uploads/2018/06/silar_sic_whiskers-home.jpg" n10s_type="seoul" title1_overlay="SI-TUFF™ Performance SiC for Coatings, Polymers, 3D Printing" caption_overlay="SI-TUFF™ Performance Silicon Carbide strengthens and toughens polymer systems, including high performance coatings and 3D printed products. Low loading levels of SI-TUFF™ improves modulus, strength, scratch, and wear resistance. It also increases hardness, enhances thermal conductivity and temperature stability. Increase in service life is typically 20-35%, with 50% and above observed in some applications." caption_orientation="left" image_as_url="on" url="/materials/si-tuff-performance-sic-for-coatings-polymers-3d-printing/" include_button="off" button_text="Find Out More" button_position="bottom-right" animation="off" image_alpha_hover="0.8" use_overlay_gradient="on" overlay_orientation="to right" overlay_color1="rgba(0,0,0,0.25)" overlay_color_stop1="4" overlay_color2="rgba(0,0,0,0.25)" overlay_orientation_hover="to right" overlay_color1_hover="rgba(89,196,197,0.9)" overlay_color2_hover="rgba(89,196,197,0.9)" overlay_color_stop2_hover="38" _builder_version="3.0.61" header_font="|on|||" button_icon="%%28%%" button_icon_color="#ffffff" size="et-pb-post-main-image-fullwidth" show_in_lightbox="off" url_new_window="on" button_url_new_window="off" mix_blend_mode="multiply" overlay_color_stop1_hover="0" sticky="off" align="left" always_center_on_mobile="on" border_style="solid" custom_button="off" button_letter_spacing="0" button_icon_placement="right" button_letter_spacing_hover="0" module_class="hover-color" header_text_color="#ffffff" text_font="|on|||"]

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<img src="https://www.haydale.com/wp-content/uploads/2017/07/jacky-lo-169262.jpg" alt="" />
<div class="n10s-overlay">
<h2>AVIATION</h2>
<p class="description">Haydale has developed materials which could protect aircraft from lightning strike. By adding a specific electrically conductive graphene into the resin component of carbon fibre, we have increased through-thickness electrical conductivity by 600%.</p>

</div>
</div>
</div>
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[/et_pb_image_n10s][et_pb_image_n10s admin_label="CERAMTUFF™ Ceramic Parts" src="/wp-content/uploads/2018/06/ceramic_parts-home.jpg" n10s_type="seoul" title1_overlay="C-TUFF™ Ceramic Parts" caption_overlay="C-TUFF™ ceramic composites are engineered blends of high-purity aluminum oxide and silicon carbide whiskers. They are characterized by extreme hardness, outstanding compressive strength, and rigidity. Parts made with C-TUFF™ materials offer exceptional fracture resistance, wear resistance, thermal shock resistance, and dimensional stability." caption_orientation="left" image_as_url="on" url="/materials/ceramtuff-ceramic-parts/" include_button="off" button_text="Find Out More" button_position="bottom-right" animation="off" image_alpha_hover="0.8" use_overlay_gradient="on" overlay_orientation="to right" overlay_color1="rgba(0,0,0,0.25)" overlay_color_stop1="4" overlay_color2="rgba(0,0,0,0.25)" overlay_orientation_hover="to right" overlay_color1_hover="rgba(89,196,197,0.9)" overlay_color2_hover="rgba(89,196,197,0.9)" overlay_color_stop2_hover="38" _builder_version="3.0.61" header_font="|on|||" button_icon="%%28%%" button_icon_color="#ffffff" size="et-pb-post-main-image-fullwidth" show_in_lightbox="off" url_new_window="on" button_url_new_window="off" mix_blend_mode="normal" overlay_color_stop1_hover="0" sticky="off" align="left" always_center_on_mobile="on" border_style="solid" custom_button="off" button_letter_spacing="0" button_icon_placement="right" button_letter_spacing_hover="0" header_text_color="#ffffff" module_class="hover-color" text_font="|on|||"]

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<h2>AVIATION</h2>
<p class="description">Haydale has developed materials which could protect aircraft from lightning strike. By adding a specific electrically conductive graphene into the resin component of carbon fibre, we have increased through-thickness electrical conductivity by 600%.</p>

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