Latest news with #AN
Barnama
6 days ago
- Sport
- Barnama
WUG 2025: M'sia Thrash Canada In Badminton Group Opener, Hoe Yean Advances To 200m Freestyle Semis
From Ahmas Nazrin Syahmi Mohamad Arif MULHEIM AN DER RUHR (Germany), July 18 (Bernama) -- As expected, Malaysia had no trouble defeating Canada in the Group D mixed team badminton match at the 2025 World University Games (WUG) at the Westenergie Sporthalle here today. Malaysia's first point came from the men's doubles pair Muhammad Fazriq Mohamad Razif-Bryan Jeremy Goonting, who beat Nathan Mills-Harold Tan 15-10, 15-5 in just 16 minutes. bootstrap slideshow The winning momentum continued with women's singles shuttler Wong Ling Ching, who outplayed Alena Yu 15-10, 15-8. Men's singles player Jacky Kok Jing Hong delivered the winning point for the national squad, but had to work hard before coming back to edge Victor Lai 6-15, 15-8, 15-12. 'I'm grateful to the coach for giving me the opportunity to play. My opponent wasn't an easy one today — he caused some upsets at the recent Canada Open (earlier this month) — but I still felt motivated to compete. 'Overall, all the players gave their best. You could see that those off court gave great support while those on court played their hearts out,' Kok said when met after the match. Also in action today were women's doubles pair Lee Xin Jie-Low Yeen Yuan, who defeated Sophia Nong-Eliana Zhang 15-3, 15-10. In the mixed doubles, however, Liew Xun-Vannee Gobi lost to Timothy Lock-Chloe Hoang 11-15, 9-15. Malaysia were drawn only with Canada in the group stage.
Hypebeast
09-07-2025
- Entertainment
- Hypebeast
Engineered Garments 2026 春季系列「This Are Two Tone」發佈
本文看點 Engineered Garments2026 春季系列系列圍繞著黑白兩色展開,巧妙地命名為「This Are Two Tone」,講述了一個關於英國 2 Tone 和 ska 復興樂團 The Specials 的宏大敘事。 系列服飾採用來自世界各地的原創面料製成,主打一款印在棉質防撕裂布上的格紋圖案,以及品牌標誌性的 ska 音樂腳印圖案,後者則呈現在聚酯纖維飛行斜紋布上。在眾多亮眼的廓形中,三件式西裝讓人聯想到 The Specials 經典的制服,而三扣的 Andover 外套則展現了 Nepenthes 子品牌的實用主義。 此外,系列中還包括多款長褲,例如剪裁較窄的 Andover 長褲,以及版型較寬的 Carlyle 長褲。當這些長褲搭配新款外套,像是 Claigton 外套和 AN 外套時,每一款褲裝都為樂團的三件式西裝廓形提供了獨特的詮釋,而搭配系列中的緞帶和窄版領帶,則更能將其精髓完美呈現。 感興趣的讀者不妨瀏覽藝廊查看本季完整型錄。
Shafaq News
08-07-2025
- Business
- Shafaq News
US backs Iraq ties as radar deal nears
Shafaq News – Baghdad/Washington Washington and Baghdad maintain a 'strong partnership based on shared interests,' despite recent remarks by Iraqi Prime Minister Mohammed Shia al-Sudani warning that unresolved disagreements could undermine bilateral relations, the US State Department (DoS) affirmed on Tuesday. Responding to Shafaq News inquiries, a DoS spokesperson said that Iraq 'plays an important role in ensuring regional stability,' and that the US continues to work with Iraq 'on counterterrorism, economic growth, and other joint concerns,' while stressing respect for Iraqi sovereignty and mutual priorities. The spokesperson also addressed reports that Iraq is expediting a major radar procurement deal with South Korea, saying, 'As a sovereign country, Iraq is responsible for its security and has chosen to partner with the US on strengthening several aspects of its security.' Earlier this week, Prime Minister al-Sudani told the BBC that ongoing disagreements with Washington could escalate to a point that "undermines the relationship." He also revealed that Iraq is moving quickly to finalize a defense agreement with South Korea to acquire advanced radar systems. According to sources familiar with the deal, Iraq is in the final stages of signing a contract worth approximately $2.8B for the purchase of 'Cheongung-II' (M-SAM II) medium-range air defense batteries, which include launchers, radars, and fire control systems. The objective is to achieve comprehensive coverage of Iraqi airspace. Iraq's current air defense capability remains limited following years of degradation since 2003. It primarily relies on long-range AN/TPS-77 radar systems and a small number of short-range platforms, which defense experts say are inadequate for full national coverage and leave operational gaps. Baghdad's move to diversify its defense suppliers comes amid heightened tensions in the region following a surge in hostilities between Iran and Israel, prompting Iraqi authorities to explore advanced systems to bolster both early warning and interception capabilities.
Time Business News
08-07-2025
- Business
- Time Business News
Safety in Every Connection: How Aerospace Fasteners Uphold Exacting Industry Standards
The aviation and defence industries represent the pinnacle of engineering precision, where every component must perform flawlessly under extreme conditions. Safety remains the paramount concern throughout aircraft design and manufacturing processes. Each connection point in an aircraft structure demands absolute reliability, as failure is simply not an option when thousands of lives depend on these critical systems operating perfectly during every flight. Aerospace fasteners form the backbone of aircraft structural integrity, serving as the vital links that hold together complex assemblies under tremendous stress. These precision-engineered components must withstand extraordinary forces, temperature variations, and environmental challenges throughout their operational lifespan. The manufacturing standards governing these essential components reflect the industry's unwavering commitment to safety and performance excellence. Aviation regulations exist for compelling reasons, born from decades of engineering advancement and lessons learned through rigorous testing protocols. The Federal Aviation Administration, European Aviation Safety Agency, and other regulatory bodies maintain strict oversight of every component entering commercial and military aircraft. These organisations understand that compromised fastener integrity can cascade into catastrophic system failures, making thorough certification processes absolutely essential for maintaining public trust in air travel. Regulatory Framework Excellence: The aerospace industry operates under some of the most comprehensive safety frameworks ever developed. These regulations cover material specifications, manufacturing processes, quality control procedures, and traceability requirements that ensure every fastener meets exacting performance criteria. Testing protocols simulate years of operational stress in accelerated timeframes, validating that components will perform reliably throughout their intended service life under all anticipated conditions. Certification Requirements: Aerospace fastener manufacturers must demonstrate compliance with multiple certification standards before their products can enter service. AS9100 quality management systems provide the foundation for consistent manufacturing excellence, whilst specific fastener standards like NAS, MS, and AN specifications define precise dimensional and performance requirements. These certifications require extensive documentation, regular audits, and continuous improvement processes that maintain the highest possible quality standards. Traceability Protocols: Every aerospace fastener carries a complete history from raw material sourcing through final installation. This traceability enables rapid identification and replacement of potentially affected components should any manufacturing anomalies be discovered. Such comprehensive record-keeping represents a critical safety net that allows the industry to maintain its exceptional safety record through proactive component management. Military and commercial aviation utilise different fastener specifications, each designed for specific operational requirements and stress profiles. NAS (National Aerospace Standard) fasteners serve commercial aviation applications, providing standardised solutions for structural connections throughout passenger aircraft. MS (Military Standard) fasteners meet defence industry requirements, often incorporating enhanced corrosion resistance and strength characteristics needed for military operations in challenging environments. Standard Fastener Categories: AN (Army-Navy) specifications represent some of the oldest standardised aerospace fasteners, originally developed during World War II but still widely used today. These time-tested designs have proven their reliability through decades of service across various aircraft types. Special bolts and jo bolts provide solutions for specific assembly requirements where standard fasteners cannot accommodate unique structural configurations or access limitations. Specialised Design Applications: Hex head bolts, screws, and nuts offer versatility in standard applications, whilst bi-hexagonal designs provide enhanced grip for high-torque applications. Socket head bolts excel in confined spaces where traditional tool access proves challenging. Pan head configurations distribute loads effectively across larger bearing surfaces, reducing stress concentrations in critical structural joints. Material Selection Criteria: Fastener materials must balance strength, weight, and environmental resistance requirements specific to their intended applications. Titanium alloys provide exceptional strength-to-weight ratios for weight-critical applications, though they require specialised manufacturing techniques. Stainless steel offers excellent corrosion resistance for external applications, whilst high-strength steel alloys deliver maximum load-bearing capacity for primary structural connections. Aerospace fasteners must function reliably across temperature ranges that would destroy conventional hardware, from arctic conditions at high altitude to extreme heat generated by jet engines during operation. These thermal cycles create expansion and contraction stresses that can fatigue inferior materials over time. Manufacturing processes must account for these operational realities by incorporating stress-relief treatments and material selection strategies that maintain fastener integrity throughout these demanding thermal cycles. Vibration Resistance Engineering: Aircraft engines generate intense vibration patterns that can gradually loosen conventional fasteners through microscopic movement at connection interfaces. Aerospace fasteners incorporate design features like prevailing torque mechanisms, thread-locking compounds, and precise tolerance specifications that maintain secure connections despite constant vibrational stresses. These anti-vibration measures prevent the gradual loosening that could compromise structural integrity over extended operational periods. Corrosion Prevention Strategies: Aircraft operate in corrosive environments ranging from salt-laden maritime air to industrial pollution and varying humidity conditions. Fastener coatings and material selection must provide long-term protection against these corrosive influences without adding excessive weight or compromising mechanical properties. Advanced surface treatments create protective barriers that extend service life whilst maintaining the precise dimensional tolerances required for proper fit and function. Load Distribution Optimisation: Critical fastener applications must distribute operational loads effectively across bearing surfaces to prevent stress concentrations that could initiate crack formation. Thread geometry, head configurations, and bearing surface designs all contribute to optimal load distribution patterns. This engineering attention to stress management helps prevent fatigue failures that might develop over thousands of flight cycles. Testing procedures for aerospace fasteners far exceed those required for conventional applications, incorporating both standard mechanical property evaluations and specialised assessments unique to aviation requirements. Tensile strength testing verifies that fasteners can withstand specified loads with appropriate safety margins, whilst fatigue testing simulates years of operational stress cycles in compressed timeframes. These comprehensive testing protocols ensure that fasteners will perform reliably throughout their intended service intervals. Non-Destructive Evaluation Methods: Advanced inspection techniques identify potential defects without compromising fastener integrity for subsequent use. Magnetic particle inspection reveals surface and near-surface discontinuities in ferromagnetic materials, whilst penetrant testing identifies surface-breaking defects in non-magnetic alloys. Ultrasonic inspection can detect internal flaws that might compromise load-bearing capacity, ensuring only perfect components enter service applications. Environmental Testing Standards: Aerospace fasteners undergo rigorous environmental testing that simulates the harsh conditions they will encounter throughout their service life. These evaluations include: Salt spray testing to evaluate corrosion resistance in maritime environments Thermal cycling between extreme temperatures to verify dimensional stability Humidity exposure testing to assess moisture-related degradation potential Chemical resistance evaluation against hydraulic fluids and cleaning solvents Stress corrosion cracking assessment under combined mechanical and environmental loading Statistical Process Control: Manufacturing consistency requires continuous monitoring of critical parameters throughout production processes. Statistical analysis of dimensional measurements, material properties, and surface finish characteristics ensures that every fastener meets specification requirements. This data-driven approach enables early detection of process variations before they can affect product quality. Commercial aviation relies heavily on standardised fastener solutions that provide consistent performance across different aircraft manufacturers and operators. These applications range from primary structural connections that transfer flight loads between major airframe components to secondary attachments for interior systems and access panels. The reliability requirements remain equally stringent regardless of application criticality, as any fastener failure can potentially compromise aircraft safety or operational availability. Military Aircraft Requirements: Defence applications often demand enhanced performance characteristics beyond those required for commercial aviation. Military aircraft may encounter combat damage, operate from unprepared airfields, or require rapid maintenance turnaround times that place additional demands on fastener performance. Enhanced corrosion resistance, improved fatigue life, and compatibility with field repair procedures represent typical military-specific requirements. Space Launch Applications: Rocket and spacecraft fasteners face perhaps the most demanding operational environment of any aerospace application. These components must function reliably through launch vibration, thermal shock from atmospheric transition, and the vacuum of space. Weight considerations become even more critical for space applications, where every gramme affects payload capacity and mission economics. Engine Component Connections: Jet engine fasteners operate in particularly challenging environments characterised by high temperatures, pressure variations, and chemical exposure to combustion products. These applications often require exotic materials like superalloys that maintain strength and oxidation resistance at elevated temperatures. Specialised coatings may be necessary to prevent galling during assembly and provide additional environmental protection. Aircraft operators understand that fastener-related maintenance issues can result in significant operational disruptions and associated costs. Unexpected fastener failures may require unscheduled maintenance actions that disrupt flight schedules, disappoint passengers, and generate substantial costs through aircraft downtime and crew repositioning expenses. Investing in premium fastener quality represents sound economic decision-making when considering these potential operational impacts. Lifecycle Cost Considerations: Quality aerospace fasteners may command premium pricing compared to general-purpose alternatives, but their extended service life and enhanced reliability often result in lower total ownership costs. Reduced maintenance requirements, longer inspection intervals, and decreased risk of in-service failures can provide substantial economic benefits that far exceed initial procurement cost differences. These economic advantages become particularly significant for high-utilisation commercial aircraft. Maintenance Planning Benefits: Predictable fastener performance enables more effective maintenance planning and inventory management strategies. When operators can rely on fastener performance characteristics, they can optimise maintenance intervals and spare parts stocking levels accordingly. This predictability reduces both planned maintenance costs and the risk of unexpected maintenance events that could disrupt operational schedules. Additive manufacturing technologies show promise for producing complex fastener geometries that would be impossible or prohibitively expensive using conventional manufacturing methods. These advanced production techniques may enable integrated fastener designs that combine multiple functions within single components, potentially reducing weight and assembly complexity. The aerospace industry continues evaluating these emerging technologies whilst maintaining the rigorous safety standards that define aviation excellence. Smart Fastener Integration: Emerging sensor technologies could enable fasteners to monitor their own condition and loading throughout service life. These intelligent components might detect loosening, fatigue damage, or environmental degradation before these conditions compromise safety or performance. Such condition-monitoring capabilities could revolutionise maintenance planning by providing real-time information about fastener health rather than relying solely on scheduled inspection intervals. Advanced Material Development: Research continues into new alloy systems and composite materials that could provide improved performance characteristics for aerospace fastener applications. These advanced materials might offer enhanced strength-to-weight ratios, superior environmental resistance, or extended fatigue life compared to current alternatives. The aerospace industry's conservative approach to new material adoption ensures thorough validation before introducing such innovations into service applications. Aerospace fasteners represent far more than simple mechanical connections; they embody the aviation industry's unwavering commitment to safety through engineering excellence and rigorous quality standards. These precision-manufactured components undergo extensive testing, certification, and quality control processes that ensure reliable performance throughout demanding operational environments. The investment in superior fastener quality pays dividends through enhanced safety margins, reduced maintenance requirements, and improved operational reliability. Whether you're involved in aircraft design, maintenance, or procurement, understanding the critical role of quality fasteners can help you make informed decisions that contribute to aviation safety and operational excellence. TIME BUSINESS NEWS
India Gazette
07-07-2025
- Sport
- India Gazette
Kapil Dev meets CM Revanth Reddy, lauds Telangana's sports vision; offers support for Sports University
New Delhi [India], July 7 (AN): Former Indian cricket team captain and legendary sportsman Kapil Dev met Telangana Chief Minister A. Revanth Reddy at his official residence in New Delhi on Monday and lauded the state government's initiatives for the development of sports under the leadership of the Chief Minister. During the meeting, Chief Minister Revanth Reddy briefed Kapil about the government's plans to establish the Young India Sports University in Telangana and outlined the comprehensive efforts being taken to promote sports infrastructure and talent development across the state. Impressed by the vision, Kapil expressed his interest in partnering with the Telangana Government in its journey to transform the sports ecosystem. He assured the Chief Minister of his support in making the proposed Sports University a success and contributing to broader initiatives aimed at nurturing sporting talent. The Chief Minister also shared insights from his recent visits to sports universities and institutions in South Korea and other countries, as well as discussions held with international sports experts and officials. Special Secretary to the Chief Minister Ajit Reddy and Secretary for Coordination of Central Schemes Dr Gaurav Uppal were also present during the meeting. Kapil's imprint on cricket is permanent. He is regarded as one of the finest all-rounders of all time. His extraordinary abilities and leadership prowess continue to inspire young players. He is a fast-medium bowler recognised for his sheer pace and a hard-hitting middle-order batter. Kapil was the Indian team captain who lifted the World Cup trophy in 1983 at the 'Home of Cricket', Lord's. The all-rounder has played 356 international matches and scored 9031 runs with 687 wickets. Aside from his on-field exploits, Kapil's personality and sportsmanship catapulted him to the status of a role model for young cricketers. His captaincy of India's World Cup-winning team in 1983 was a watershed event in Indian cricket, motivating a generation and engraving his name in cricketing history. During his playing days, Kapil made 131 Test appearances, scythed 434 wickets and garnered 5,248 runs. In the ODIs, he featured in 225 matches, scalped 253 wickets and struck 3,783 runs. (ANI)
