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| Share Name | Share Symbol | Market | Stock Type |
|---|---|---|---|
| Haydale Graphene Industries Plc | HAYD | London | Ordinary Share |
| Price Change | Price Change % | Share Price | Last Trade
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|---|---|---|---|---|
| 0.005 | 1.12% | 0.45 | 15:58:58 |
| Open Price | Low Price | High Price | Close Price | Previous Close |
|---|---|---|---|---|
| 0.445 | 0.445 | 0.45 | 0.45 | 0.445 |
| Industry Sector |
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| INDUSTRIAL ENGINEERING |
| Top Posts |
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Posted at 12/3/2024 11:20 by analystium Interim Results | 12th March 2024Haydale (AIM: HAYD), the global technology solutions group, announces its unaudited interim results for the six months ended 31 December 2023 (the 'Period' or 'H1 FY24'). Financial Highlights Group Revenues increased by 38% to £2.47 million (H1 FY23 £1.78 million); Adjusted Administrative expenses of £3.26 million (H1 FY23: £3.02 million) primarily reflecting inflationary rises and the strengthening of capability to support forecast growth; Adjusted operating loss for the Period of £1.61 million (H1 FY23 £1.89 million); Cash at Period end of £3.3 million (31 December 2022: £2.97 million); Successful fund raise of £5.1 million (Gross) in October 2023; and Cost savings plan in progress to further hone operations. |
Posted at 26/10/2023 07:41 by pugugly "With the fundamental building blocks in place and continuing progress in our key markets, the Board remains confident that the Company will be able to take advantage of the traction it is now seeing."Could the past disastrous history be behind us - or new management spin wearing rose tinted glasses.? |
Posted at 13/7/2023 07:58 by ricardox So hayd is a little leaky. Positive rns this morning. |
Posted at 08/6/2023 21:25 by cerrito I have been out of HAYD for a year plus but I thought of them when as a holder of Costain, I read this on their thread this evening.I seem to remember that HAYD were looking at cement so was interested in the reference to graphene. I appreciate I may have the wrong end of the stivk Quote Dr Ioannis Brilakis, Laing O'Rourke Reader in Construction Engineering, will lead the project titled Digital Roads, which aims to improve the cost, time, quality, safety, sustainability, and resilience performance of expressways. Co-investigators Dr Fumiya Iida, Professor Abir Al-Tabbaa and Professor Mark Girolami will join him. The Cambridge engineers will work in partnership with Highways England and construction and engineering company Costain. The vision is to deliver roads made out of smart materials that can measure and monitor their own performance over time. The researchers will use graphene infused concrete coatings to enable self-sensing on both the road surface and the median barrier, informing the road's Digital Twin through robotic monitoring. These self-sensing and self-healing materials, along with a wide range of measured data, will inform the data-science enabled digital processes, resulting in making better design, construction, maintenance, and operation predictions. This will make roads considerably less expensive, more reliable, and safer, allowing highways agencies and councils to identify when repair work is needed." hxxp://www.eng.cam.a |
Posted at 24/5/2023 07:43 by bad gateway Good catch on that one knownowt and £24M in grants announced already. Hayd wouldn't need a great proportion of that for it to be co. enhancing either.Interesting imo. |
Posted at 14/2/2023 07:39 by dave4545 Maybe they should have held onHaydale Awarded Innovate UK Grant to Develop Image-Based Characterisation of 2D Materials Haydale, (AIM: HAYD), the global technology solutions company, is pleased to announce that it has been awarded funding of GBP258,547 by Innovate UK, the UK's innovation agency, to develop imaging techniques to characterise 2D materials, including graphene, to improve the compatibility and material selection processes. The project started at the end of January and is expected to run for 42 months. Horizon Europe's new research project ACCORDs (Green deal inspired correlative imaging-based characterisation for safety profiling of 2D materials) will use imaging tools to create a visual reference of the structure and morphology of 2D materials aimed at making the selection of the right nanomaterials quicker and easier for companies using them in production. It will be the first time that an extensive programme of works will look to standardise the characterisation of 2D materials with the aim of adoption by standardisation bodies such as ISO. Haydale is one of ten partners in the consortium and will provide the project with unfunctionalised and HDPlas Ò functionalised nanomaterial powder, masterbatch, laminate, ink and coated substrate samples. Current methods for characterising 2D materials for use in application are time consuming. The programme will have access to graphene in every format from raw material to finished product to develop new techniques not used before to image a range of nanomaterials. The project looks to simplify the process of materials selection to give companies working with nanomaterials a simple visual reference tool, which will save time and money and enhance production output for all industries. Led by the University of Ljubljana, the project started on 30(th) January with a two-day inaugural meeting for the consortium partners held at the university in Slovenia. Haydale UK Site Director, John-Mark Seymour said: "Haydale will be instrumental in helping to develop imaging techniques never used before to characterise 2D materials for their use in a wide range of applications. We work with nanomaterials daily and have characterised over 250 types of graphene and so we are delighted to be sharing our expertise and working with the other consortium partners to deliver this important research project for our industry." |
Posted at 10/2/2023 13:20 by z1co The news this week regarding Norse Kayaks is a game changer in it self:Haydale, (AIM: HAYD), the global technology solutions company, is delighted that its bespoke mechanical graphene masterbatch has been used to create stronger and lighter composite sea kayaks for Norwegian paddle sport brand Norse Kayaks ("Norse"). By using the new graphene enhanced material the Norse kayak is now 30% lighter going from 23kg to 16kg, making the composite kayak easier to load and transport. The use of graphene in the vacuum infusion composite layup process has also increased both impact strength and stiffness, improving the resistance to breakage in critical areas of the kayak. Vibration dampening has also improved the user experience. |
Posted at 30/1/2023 20:08 by z1co Mr BearThere was never a chance of that happening. Contracts and trials for new work are increasing all the time and the outlook for 2023 is very bullish: 07 September 2022 Haydale Has Food Packaging All Zipped Up Haydale, (AIM: HAYD), the global advanced materials group, has started to supply South Korean plastics developer NeoEnpla Co., Ltd with functionalised graphene nano-platelets (GNPs) for use in food packaging. Functionalised using Haydale's patented HDPlas(R) technology, the GNP-enhanced thermoplastic has been used to manufacture an initial sample range of food storage zipper bags and biodegradable plastic bags. Keeping Food Fresher for Longer The graphene zipper bags have shown an increase in tensile strength of 31% compared to non-graphene LLDPE (linear low-density polyethylene) zipper bags(1). LLDPE and LDPE (low density polyethylene) are widely used in food packaging and are ideal for food storage due to their high resistance to moisture, tearing and chemicals. The increased mechanical strength of the graphene zipper bags allows light weighting of the plastic, reducing the film thickness from 90um to 60um per bag. Food packaging primarily acts as a barrier to moisture and gases (including contaminants) that ordinarily lead to a reduction in the shelf-life of food. The new graphene-enhanced food storage bags keep the food fresher for longer thanks to the anti-bacterial, UV and barrier properties of functionalised graphene, resulting in less food waste. The graphene-composites polymer bags demonstrated their own oxygen blocking effect keeping food such as bread, cake and rice containing carbohydrates fresher for longer compared to non-graphene bags. Plastic packaging is necessary to maintain the shelf life of fresh food items, reducing food waste by spoilage before use. By ensuring barrier performance is delivered in products that can be recycled or composted, there is the potential for a more sustainable approach to the challenges often faced by producing recyclable materials. Improving Sustainability of Plastics With the increasing demand to reduce single use plastics and increase recycling rates, getting the performance characteristics demanded by the industry is a challenge. To address this, both recyclable LLDPE and LDPE were evaluated in addition to PBAT (Polybutylene Adipate Terephthalate), a biodegradable polymer that is already seeing increasing demand for its biodegradable properties. The new biodegradable bags contain a blend of PLA (Polylactic Acid) and PBAT, and enhanced with GNPs, offer increased strength without affecting the compostability of the films. Haydale believes to be at the forefront of graphene and other nanomaterials being used in food packaging through the HiBarFilm2 project, which aims to develop the next generation of high barrier films for food packaging using plasma functionalisation. The project, which started earlier this year, aims to redesign multilayer films into 100% recyclable and compostable mono-material solutions for the food industry. The funded project focusses on using HDPlas(R) functionalised barrier additives including graphene, to maximise barrier performance and improve dispersion of the additives within the chosen matrix. Key project deliverables are intended to reduce the environmental impact of packaging plastics and offer more sustainable barrier solutions to combat food waste. |
Posted at 28/1/2023 11:16 by z1co The company at this present moment is fully funded and the news flow from the company is also very bullish , this from 20/01/2023:Haydale Graphene-Enhanced Prepreg Extends Tool Life Over 100 per cent Haydale, (AIM: HAYD), the global technology solutions company, is pleased to be launching its graphene-enhanced prepreg after extended field trials more than doubled the manufacture of composite parts. Using Haydale's HDPlas technology, functionalised graphene is added to high performing tooling epoxy resin and then pre-impregnated onto a suitable carbon fibre reinforcement for use in tool manufacture. The graphene-enhanced epoxy prepreg tooling material is designed to deliver cost-efficient composite tooling with extended tooling life, improved surface quality and enhanced thermal conductivity. Working with a UK Automotive Tier 1 composite parts manufacturer, Prodrive Composites Ltd ("Prodrive"), the tooling prepreg has been on trial for two years, and they have been delighted with the performance they have seen. "We have been producing duplicate parts with both our standard and the nano-enhanced version and can say with confidence that the Haydale material has delivered more than 500 parts without any deterioration of the mould surface. Using the standard version, we would expect approximately 250 pulls from a tool before it is replaced," says Matt Bradney, Director of Business Development, Prodrive. Commenting on the graphene-enhanced prepreg, Keith Broadbent Haydale CEO said: "With fibre-reinforced composites gaining in use across aerospace and automotive applications, the fact that our functionalised graphene can extend the tooling life significantly will mean substantial cost savings for the producer and end user." Switching over to the graphene-enhanced prepreg requires no changes to standard processing for use in autoclave and out-of-autoclave (OOA) applications. |
Posted at 26/1/2023 10:39 by z1co The company is fully funded , starting new trials with United Utilities:CeramycGuard(TM) on Trial with United Utilities CeramycGuard(TM), exclusively distributed by Haydale (AIM: HAYD) in the UK is currently being trialled by United Utilities at their wastewater treatment works in Oldham, UK. The unique low CO2 ceramic-polymer surface treatment has been applied to a 10m(2) area of a newly commissioned final settlement tank. The trial will last for a period of six months. Previously, the internal face of the tanks on site have been coated with a repair screed and topcoat, which have not achieved a satisfactory service life because of the harsh, chemical environment. The chemicals within the water create a chalky surface with holes that reduce the reinforcement coverage. As a result, repair work is having to be carried out at regular intervals, requiring the tanks to be taken offline, which is both expensive and time consuming. CeramycGuard(TM) uses Haydale's proprietary silicon carbide microfibres, along with nano-Alumina and Zirconia Silicates to renew and preserve concrete surfaces by chemically bonding to the concrete. The surface treatment fills the pores and microcracks to create a new ceramic surface layer that is impermeable to corrosive liquids such as acids and salts, and microbiologically active solutions. The CeramycGuard(TM) was applied by roller within 10 minutes. The surface can be cured at five or 12 degrees, with the concrete asset being back in service between 24 hours and seven days after application, depending on the size of the area being treated. For the trial, after seven days a topcoat of Haydale's QuartzSeal(TM) was applied over the CeramycGuard(TM) to further inhibit the ingress of water and chemical pollutants and to seal out dust and dirt and protect against stains. This also makes the new surface layer biologically impervious. As a non-toxic water-based product that does not contain VOCs or leachable organic constitutes, CeramycGuard's CO2 footprint is significantly lower than epoxy systems by up to 50 times in an equivalent application. Its unique properties can potentially protect and extend the life of concrete assets such as final settlement tanks by up to 30 years. The application of the surface treatment is currently undergoing a monitoring process, but as an asset preservation technology it is anticipated to extend the service life of the final settlement tank. At the end of the six-month trial, a thorough inspection of the treated area will be carried out. The outcome of the current trial could result in CeramycGuard(TM) being used to treat multiple assets on the site to extend their service life. The benefits are likely to be long-term cost savings by using a product that could reduce the frequency of repairs with much lower CO2 emissions compared to systems currently used to coat concrete. |
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