(MENAFN - Emirates News Agency (WAM))
RIYADH, NEW YORK, 12th February 2021 (WAM) - The Coalition to Restore Legitimacy in Yemen intercepted and destroyed three drones launched by the Houthi militia toward Saudi Arabia, Saudi Press Agency reported.
The Coalition s Spokesman Col. Turki Al-Malki, said on Friday: The Joint Coalition Forces have intercepted and destroyed this morning a bomb-laden UAV launched systematically and deliberately by the terrorist Houthi militia to target civilians and civilian objects in the Southern Region.
Meanwhile, Saudi Arabia called on the UN Security Council to shoulder its responsibility toward the Houthi militias, backed by Iran, to stop their threats to international peace and security, and to hold them accountable for their violent activities.
Fishers urged to clean up after themselves after 5-year-old gets hooked
15 Jan, 2021 01:35 AM
2 minutes to read
The five year old was rushed to Whanganui Hospital on Monday afternoon. Photo / Supplied
Mike Tweed is a multimedia journalist at the Whanganui Chroniclemichael.tweed@nzme.co.nzWhangaChron
A Whanganui family s fishing outing on Monday ended abruptly after a 5-year-old boy was rushed to Whanganui Accident & Medical Clinic (WAM) with two fishing hooks stuck in his leg.
It s prompted pleas for people to clean up after themselves when out fishing.
The boy s grandmother, Christina Shepherd, said the hooks, which were on the same line, had been left on the ground near the wharf off Tregenna St. The family had only been there for a matter of minutes when the boy was hurt.
Abstract
Additive manufacturing based on robotic welding is used for the manufacturing of metal parts by applying an arc as a heat source and wire as feedstock. The process is known as Wire Arc Additive Manufacturing (WAAM). However, the current WAAM process has a limitation in fabricating block structure components with high geometry accuracy and consistent welding due to the process complexity and lack of appropriate process planning method. Furthermore, common defects such as voids, gaps and collapse decrease the mechanical properties of the final product. This thesis presents a novel process planning method based on a Mixed Heat Input(MHI) strategy to minimise voids and collapse defects that occur in fabricating large block structure components while maintaining a high manufacturing efficiency. By dividing each layer into a boundary layer and multiple inner layers, the MHI method applies various heat input conditions at different positions of the layer allowing the construction