Giggs eyes promotion after win over Ireland

first_imgWales boss Ryan Giggs challenged his players to win their Nations League group after seeing them edge past the Republic of Ireland without star men Gareth Bale and Aaron Ramsey.Giggs’ men sit at the top of League B’s Group Four after completing a double over Ireland with a 1-0 victory at the Aviva Stadium courtesy of Harry Wilson’s fine free-kick.They entertain Denmark next month already having assured a place in pot two for the Euro 2020 draw and knowing another three points will put them into an unassailable position.Giggs said: “We set out in this Nations League to win the group and then see where it took us, and that’s good that we can do it with one game to go.“Now the next thing is to look to win it. It won’t be easy – we have got Denmark at home – but Cardiff City Stadium will be bouncing, we’re guaranteed for that, and I’m really looking forward to the challenge now.”A game of sparse quality was won by one of the few moments of inspiration when Harry Wilson took full advantage of Harry Arter’s rash 58th-minute challenge on Connor Roberts to curl home a superb free-kick.Giggs, who handed first starts to teenagers Matthew Smith and Tyler Roberts in Dublin, was significantly happier with Wilson’s contribution in Dublin than the one Derby’s on-loan winger made in scoring in his club’s Carabao Cup win over Manchester United last month.He said: “Harry, magnificent free-kick. I thought about fining him for scoring at Old Trafford, but I won’t be fining him tonight.“It’s not easy when you’re missing quality players like that, and there have been results which have not gone our way without Gareth and Aaron, so it was a chance for the players to come in and prove that that’s not the case going forward and they did that tonight.“We played some really good stuff, but the thing I’m most proud about is that clean sheet, that will to defend and put their bodies on the line.”If Giggs was jubilant as he headed back across the Irish Sea, opposite number Martin O’Neill found himself increasingly embattled after a run of five competitive games without a win and only nine goals in 13 matches.Asked if he questioned himself – there were boos on the final whistle – he replied: “Do you know what? I am not so sure that I have ever not asked questions about myself.“I think I do. I think I did that as a player and I certainly do that as a manager.“If you are asking about responsibility for it, I take responsibility for every kick that is made on that field by us. That is my job. That will not change.“And in terms of questioning, there is no question. I do question everything that happens on the field. I look back again to see what we may have been able to do a little bit better and hopefully that improvement continues.“But in terms of questioning myself as a professional, both as a player and as a manager, I’ve always done it, genuinely always done it.”last_img read more

Titanium alloy discovered to improve fuel economy and CO2 emissions

first_imgSource An improved titanium alloy stronger than any commercial titanium alloy currently on the market gets its strength from the novel way atoms are arranged to form a special nanostructure.For the first time, researchers have been able to see this alignment and then manipulate it to make the strongest titanium alloy ever developed, and with a lower cost process to boot.They note in a paper published on April 1 by Nature Communications that the material is an excellent candidate for producing lighter vehicle parts, and that this newfound understanding may lead to the creation of other high strength alloys.Researchers at the Department of Energy’s Pacific Northwest National Laboratory knew the titanium alloy made from a low-cost process they had previously pioneered had very good mechanical properties, but they wanted to know how to make it even stronger.Using powerful electron microscopes and a unique atom probe imaging approach they were able to peer deep inside the alloy’s nanostructure to see what was happening.Once they understood the nanostructure, they were able to create the strongest titanium alloy ever made.At 45 percent the weight of low carbon steel, titanium is a lightweight but not super strong element.The resulting alloy, called Ti185 was very strong but only in places.Iron clustered in certain areas creating defects known as beta flecks in the material, making it difficult to commercially produce this alloy reliably.About six years ago, PNNL and its collaborators found a way around that problem and also developed a low-cost process to produce the material at an industrial scale, which had not been done before.By using this feedstock, they reduced the processing time by half and they drastically reduced the energy requirements resulting in a low-cost process in use now by a company called Advance Materials Inc. ADMA co-developed the process with PNNL metallurgist Curt Lavender and sells the titanium hydride powder and other advanced materials to the aerospace industry and others.Much like a medieval blacksmith, researchers knew that they could make this alloy even stronger by heat-treating it.Heating the alloy in a furnace at different temperatures and then plunging it into cold water essentially rearranges the elements at the atomic level in different ways thereby making the resulting material stronger.The PNNL team knew if they could see the microstructure at the nano-scale they could optimize the heat-treating process to tailor the nanostructure and achieve very high strength.“We found that if you heat treat it first with a higher temperature before a low temperature heat treatment step, you could create a titanium alloy 10-15 percent stronger than any commercial titanium alloy currently on the market and that it has roughly double the strength of steel,” said Arun Devaraj a material scientist at PNNL. “This alloy is still more expensive than steel but with its strength-to-cost ratio, it becomes much more affordable with greater potential for lightweight automotive applications,” added Vineet Joshi a metallurgist at PNNL. Devaraj and the team used electron microscopy to zoom into the alloy at the hundreds of nanometers scale-about 1,000th the width of an average human hair.Then they zoomed in even further to see how the individual atoms are arranged in 3-D using an atom probe tomography system at EMSL, the Environmental Molecular Sciences Laboratory, a DOE Office of Science User Facility located at PNNL. The atom probe dislodges just one atom at a time and sends it to a detector.“The aluminum and titanium atoms liked to be inside the nano-sized alpha phase precipitates, whereas vanadium and iron preferred to move to the beta matrix phase,” said Devaraj.Steel used to produce vehicles has a tensile strength of 800-900 megapascals, whereas the 10-15 percent increase achieved at PNNL puts Ti185 at nearly 1,700 megapascals, or roughly double the strength of automotive steel while being almost half as light.The team collaborated with Ankit Srivastava, an assistant professor of Texas A&M’s Material Science and Engineering Department to develop a simple mathematical model for explaining how the hierarchical nanostructure can result in the exceptionally high strength.The model when compared with the microscopy results and processing led to the discovery of this strongest titanium alloy ever made.“This pushes the boundary of what we can do with titanium alloys,” said Devaraj.“Now that we understand what’s happening and why this alloy has such high strength, researchers believe they may be able to modify other alloys by intentionally creating microstructures that look like the ones in Ti185.”Aluminum is a less expensive metal and if the nanostructure of aluminum alloys can be seen and hierarchically arranged in a similar manner, that would also help the auto industry build lighter vehicles that use less fuel and put out less carbon dioxide that contributes to climate warming.last_img read more