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DUKAS_186569948_NUR
Protest Against Gang Rape In Kolkata, India
Police officers obstruct as Bharatiya Janata Party (BJP) activists block the main road and burn tires in Kolkata, India, on July 1, 2025, during a protest against the alleged gang rape of a law student at South Calcutta Law College. Three accused are known to be members of the student union of the college, which is part of the Trinamul Congress (TMC) student union, the current ruling party of West Bengal, according to reports. (Photo by Gautam Bose) -
DUKAS_186569946_NUR
Protest Against Gang Rape In Kolkata, India
Police officers obstruct as Bharatiya Janata Party (BJP) activists block the main road and burn tires in Kolkata, India, on July 1, 2025, during a protest against the alleged gang rape of a law student at South Calcutta Law College. Three accused are known to be members of the student union of the college, which is part of the Trinamul Congress (TMC) student union, the current ruling party of West Bengal, according to reports. (Photo by Gautam Bose) -
DUKAS_184662861_ZUM
India: Transgender Sex Workers And Truckers with STD's
January 21, 2025, New Delhi, India A truck driver parks his truck in Jahangirpuri, New Delhi in New Delhi, India. The truckers live inside a truck for days while they wait for their next assignment and regularly meet transgender sex workers. STDs are a major problem among the truckers, and they have an HIV prevalence rate of 1.48% seven times higher than India's national adult average of 0.20% (Credit Image: © Elke Scholiers/ZUMA Press Wire (FOTO: DUKAS/ZUMA)
Represented by ZUMA Press, Inc. -
DUKAS_180137337_FER
New alloy mesh tyres to carry humans across Mars
Ferrari Press Agency
Tyres 1
Ref 16489
23/01/2025
See Ferrari text
Pictures must credit: NASA
The tyres that could carry astronauts over the surface of Mars have been unveiled by US space agency NASA.
While several robotic missions have landed on Mars, NASA has only explored 1% of its surface.
Ahead of future human and robotic missions to the Red Planet, NASA recently completed rigorous rover testing on Martian-simulated terrain;
It used a revolutionary alloy mesh tyre developed at the agency’s Glenn Research Center in Cleveland in partnership with car tyre manufacturer Goodyear.
The tyres were made from a nickel-titanium alloy which has the ability to rearrange its atomic structure when force is introduced.
It’s a shape memory metal which means it that can return to its original shape after being bent, stretched, heated, and cooled.
Rovers for exploring planetary surfaces must be equipped with adequate tyres for the environment.
Mars has an uneven, rocky surface so the durable so-called shape memory alloy tyres will make that possible.
They can absorb the impact from a wide range of sharp, craggy rocks without suffering damage.
NASA engineers just tested the tyres at a UK facility owned by European aircraft maker Airbus that simulates the Martian terrain, called Mars Yard.
OPS: A NASA rover equipped with the new alloy mesh tyres under test in simulated Martian conditions at Mars Yard in the UK.
Picvture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_180137327_FER
New alloy mesh tyres to carry humans across Mars
Ferrari Press Agency
Tyres 1
Ref 16489
23/01/2025
See Ferrari text
Pictures must credit: NASA
The tyres that could carry astronauts over the surface of Mars have been unveiled by US space agency NASA.
While several robotic missions have landed on Mars, NASA has only explored 1% of its surface.
Ahead of future human and robotic missions to the Red Planet, NASA recently completed rigorous rover testing on Martian-simulated terrain;
It used a revolutionary alloy mesh tyre developed at the agency’s Glenn Research Center in Cleveland in partnership with car tyre manufacturer Goodyear.
The tyres were made from a nickel-titanium alloy which has the ability to rearrange its atomic structure when force is introduced.
It’s a shape memory metal which means it that can return to its original shape after being bent, stretched, heated, and cooled.
Rovers for exploring planetary surfaces must be equipped with adequate tyres for the environment.
Mars has an uneven, rocky surface so the durable so-called shape memory alloy tyres will make that possible.
They can absorb the impact from a wide range of sharp, craggy rocks without suffering damage.
NASA engineers just tested the tyres at a UK facility owned by European aircraft maker Airbus that simulates the Martian terrain, called Mars Yard.
OPS: A NASA rover equipped with the new alloy mesh tyres under test in simulated Martian conditions at Mars Yard in the UK.
Picvture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_180137326_FER
New alloy mesh tyres to carry humans across Mars
Ferrari Press Agency
Tyres 1
Ref 16489
23/01/2025
See Ferrari text
Pictures must credit: NASA
The tyres that could carry astronauts over the surface of Mars have been unveiled by US space agency NASA.
While several robotic missions have landed on Mars, NASA has only explored 1% of its surface.
Ahead of future human and robotic missions to the Red Planet, NASA recently completed rigorous rover testing on Martian-simulated terrain;
It used a revolutionary alloy mesh tyre developed at the agency’s Glenn Research Center in Cleveland in partnership with car tyre manufacturer Goodyear.
The tyres were made from a nickel-titanium alloy which has the ability to rearrange its atomic structure when force is introduced.
It’s a shape memory metal which means it that can return to its original shape after being bent, stretched, heated, and cooled.
Rovers for exploring planetary surfaces must be equipped with adequate tyres for the environment.
Mars has an uneven, rocky surface so the durable so-called shape memory alloy tyres will make that possible.
They can absorb the impact from a wide range of sharp, craggy rocks without suffering damage.
NASA engineers just tested the tyres at a UK facility owned by European aircraft maker Airbus that simulates the Martian terrain, called Mars Yard.
OPS: One of the new alloy mesh tyres
Picvture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUK10141190_016
FEATURE - Fahrrad mit luftlosen Reifen, die für die Mond- und Mars-Rover-Missionen entwickelt wurden
Ferrari Press Agency
Tyres1
Ref 12749
18/03/2021
See Ferrari text
Pictures must credit: Smart Tire Company
Airless bike tyres using technology developed by US space agency NASA for its Mars and Moon rover missions, are coming to bicycles.The tyres use shape memory alloy technology.They will be used in a cutting edge, eco-friendly bicycle tire called METLTM. The tyres are made from advanced, lightweight alloy creating a tire that is elastic like rubber yet strong like titanium.They keep their shape without ever going flat. The tyres have the ability to undergo phase transitions at the molecular level under strain and can take thirty times the strain of ordinary steel. They are also eco-friendly, using long-lasting materials that reduce the use of rubber. The tyres are described as premier high-tech component for the modern cyclist with road, gravel, mountain and e-bike applications.The METLTM bike , which will use the technology, is to be built by US firm the Smart Tire Company.
OPS: The MELTM bike protype with NiTinol+ airless tyres
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141190_015
FEATURE - Fahrrad mit luftlosen Reifen, die für die Mond- und Mars-Rover-Missionen entwickelt wurden
Ferrari Press Agency
Tyres1
Ref 12749
18/03/2021
See Ferrari text
Pictures must credit: NASA
Airless bike tyres using technology developed by US space agency NASA for its Mars and Moon rover missions, are coming to bicycles.The tyres use shape memory alloy technology.They will be used in a cutting edge, eco-friendly bicycle tire called METLTM. The tyres are made from advanced, lightweight alloy creating a tire that is elastic like rubber yet strong like titanium.They keep their shape without ever going flat. The tyres have the ability to undergo phase transitions at the molecular level under strain and can take thirty times the strain of ordinary steel. They are also eco-friendly, using long-lasting materials that reduce the use of rubber. The tyres are described as premier high-tech component for the modern cyclist with road, gravel, mountain and e-bike applications.The METLTM bike , which will use the technology, is to be built by US firm the Smart Tire Company.
OPS: The NiTinol+ airless tyre under testing by NASA for Moon and Mars rover missions. The tyres is able to negotiate rocky obstacles and still retain its shape.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141190_014
FEATURE - Fahrrad mit luftlosen Reifen, die für die Mond- und Mars-Rover-Missionen entwickelt wurden
Ferrari Press Agency
Tyres1
Ref 12749
18/03/2021
See Ferrari text
Pictures must credit: NASA
Airless bike tyres using technology developed by US space agency NASA for its Mars and Moon rover missions, are coming to bicycles.The tyres use shape memory alloy technology.They will be used in a cutting edge, eco-friendly bicycle tire called METLTM. The tyres are made from advanced, lightweight alloy creating a tire that is elastic like rubber yet strong like titanium.They keep their shape without ever going flat. The tyres have the ability to undergo phase transitions at the molecular level under strain and can take thirty times the strain of ordinary steel. They are also eco-friendly, using long-lasting materials that reduce the use of rubber. The tyres are described as premier high-tech component for the modern cyclist with road, gravel, mountain and e-bike applications.The METLTM bike , which will use the technology, is to be built by US firm the Smart Tire Company.
OPS: The NiTinol+ airless tyre under testing by NASA for Moon and Mars rover missions. The tyres is able to negotiate rocky obstacles and still retain its shape.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141190_013
FEATURE - Fahrrad mit luftlosen Reifen, die für die Mond- und Mars-Rover-Missionen entwickelt wurden
Ferrari Press Agency
Tyres1
Ref 12749
18/03/2021
See Ferrari text
Pictures must credit: NASA
Airless bike tyres using technology developed by US space agency NASA for its Mars and Moon rover missions, are coming to bicycles.The tyres use shape memory alloy technology.They will be used in a cutting edge, eco-friendly bicycle tire called METLTM. The tyres are made from advanced, lightweight alloy creating a tire that is elastic like rubber yet strong like titanium.They keep their shape without ever going flat. The tyres have the ability to undergo phase transitions at the molecular level under strain and can take thirty times the strain of ordinary steel. They are also eco-friendly, using long-lasting materials that reduce the use of rubber. The tyres are described as premier high-tech component for the modern cyclist with road, gravel, mountain and e-bike applications.The METLTM bike , which will use the technology, is to be built by US firm the Smart Tire Company.
OPS: The NiTinol+ airless tyre under testing by NASA for Moon and Mars rover missions on a car
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141190_012
FEATURE - Fahrrad mit luftlosen Reifen, die für die Mond- und Mars-Rover-Missionen entwickelt wurden
Ferrari Press Agency
Tyres1
Ref 12749
18/03/2021
See Ferrari text
Pictures must credit: NASA
Airless bike tyres using technology developed by US space agency NASA for its Mars and Moon rover missions, are coming to bicycles.The tyres use shape memory alloy technology.They will be used in a cutting edge, eco-friendly bicycle tire called METLTM. The tyres are made from advanced, lightweight alloy creating a tire that is elastic like rubber yet strong like titanium.They keep their shape without ever going flat. The tyres have the ability to undergo phase transitions at the molecular level under strain and can take thirty times the strain of ordinary steel. They are also eco-friendly, using long-lasting materials that reduce the use of rubber. The tyres are described as premier high-tech component for the modern cyclist with road, gravel, mountain and e-bike applications.The METLTM bike , which will use the technology, is to be built by US firm the Smart Tire Company.
OPS: A strand of alloy used in the NiTinol+ airless tyre
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141190_011
FEATURE - Fahrrad mit luftlosen Reifen, die für die Mond- und Mars-Rover-Missionen entwickelt wurden
Ferrari Press Agency
Tyres1
Ref 12749
18/03/2021
See Ferrari text
Pictures must credit: NASA
Airless bike tyres using technology developed by US space agency NASA for its Mars and Moon rover missions, are coming to bicycles.The tyres use shape memory alloy technology.They will be used in a cutting edge, eco-friendly bicycle tire called METLTM. The tyres are made from advanced, lightweight alloy creating a tire that is elastic like rubber yet strong like titanium.They keep their shape without ever going flat. The tyres have the ability to undergo phase transitions at the molecular level under strain and can take thirty times the strain of ordinary steel. They are also eco-friendly, using long-lasting materials that reduce the use of rubber. The tyres are described as premier high-tech component for the modern cyclist with road, gravel, mountain and e-bike applications.The METLTM bike , which will use the technology, is to be built by US firm the Smart Tire Company.
OPS: The NiTinol+ airless tyre under testing by NASA for Moon and Mars rover missions. The tyres is able to negotiate rocky obstacles and still retain its shape.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141190_010
FEATURE - Fahrrad mit luftlosen Reifen, die für die Mond- und Mars-Rover-Missionen entwickelt wurden
Ferrari Press Agency
Tyres1
Ref 12749
18/03/2021
See Ferrari text
Pictures must credit: Smart Tire Company
Airless bike tyres using technology developed by US space agency NASA for its Mars and Moon rover missions, are coming to bicycles.The tyres use shape memory alloy technology.They will be used in a cutting edge, eco-friendly bicycle tire called METLTM. The tyres are made from advanced, lightweight alloy creating a tire that is elastic like rubber yet strong like titanium.They keep their shape without ever going flat. The tyres have the ability to undergo phase transitions at the molecular level under strain and can take thirty times the strain of ordinary steel. They are also eco-friendly, using long-lasting materials that reduce the use of rubber. The tyres are described as premier high-tech component for the modern cyclist with road, gravel, mountain and e-bike applications.The METLTM bike , which will use the technology, is to be built by US firm the Smart Tire Company.
OPS: The MELTM bike protype with NiTinol+ airless tyres
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141190_009
FEATURE - Fahrrad mit luftlosen Reifen, die für die Mond- und Mars-Rover-Missionen entwickelt wurden
Ferrari Press Agency
Tyres1
Ref 12749
18/03/2021
See Ferrari text
Pictures must credit: Smart Tire Company
Airless bike tyres using technology developed by US space agency NASA for its Mars and Moon rover missions, are coming to bicycles.The tyres use shape memory alloy technology.They will be used in a cutting edge, eco-friendly bicycle tire called METLTM. The tyres are made from advanced, lightweight alloy creating a tire that is elastic like rubber yet strong like titanium.They keep their shape without ever going flat. The tyres have the ability to undergo phase transitions at the molecular level under strain and can take thirty times the strain of ordinary steel. They are also eco-friendly, using long-lasting materials that reduce the use of rubber. The tyres are described as premier high-tech component for the modern cyclist with road, gravel, mountain and e-bike applications.The METLTM bike , which will use the technology, is to be built by US firm the Smart Tire Company.
OPS: The MELTM bike protype with NiTinol+ airless tyres
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141190_008
FEATURE - Fahrrad mit luftlosen Reifen, die für die Mond- und Mars-Rover-Missionen entwickelt wurden
Ferrari Press Agency
Tyres1
Ref 12749
18/03/2021
See Ferrari text
Pictures must credit: Smart Tire Company
Airless bike tyres using technology developed by US space agency NASA for its Mars and Moon rover missions, are coming to bicycles.The tyres use shape memory alloy technology.They will be used in a cutting edge, eco-friendly bicycle tire called METLTM. The tyres are made from advanced, lightweight alloy creating a tire that is elastic like rubber yet strong like titanium.They keep their shape without ever going flat. The tyres have the ability to undergo phase transitions at the molecular level under strain and can take thirty times the strain of ordinary steel. They are also eco-friendly, using long-lasting materials that reduce the use of rubber. The tyres are described as premier high-tech component for the modern cyclist with road, gravel, mountain and e-bike applications.The METLTM bike , which will use the technology, is to be built by US firm the Smart Tire Company.
OPS: The MELTM bike protype with NiTinol+ airless tyres
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141190_007
FEATURE - Fahrrad mit luftlosen Reifen, die für die Mond- und Mars-Rover-Missionen entwickelt wurden
Ferrari Press Agency
Tyres1
Ref 12749
18/03/2021
See Ferrari text
Pictures must credit: Smart Tire Company
Airless bike tyres using technology developed by US space agency NASA for its Mars and Moon rover missions, are coming to bicycles.The tyres use shape memory alloy technology.They will be used in a cutting edge, eco-friendly bicycle tire called METLTM. The tyres are made from advanced, lightweight alloy creating a tire that is elastic like rubber yet strong like titanium.They keep their shape without ever going flat. The tyres have the ability to undergo phase transitions at the molecular level under strain and can take thirty times the strain of ordinary steel. They are also eco-friendly, using long-lasting materials that reduce the use of rubber. The tyres are described as premier high-tech component for the modern cyclist with road, gravel, mountain and e-bike applications.The METLTM bike , which will use the technology, is to be built by US firm the Smart Tire Company.
OPS: The MELTM bike protype with NiTinol+ airless tyres
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141190_006
FEATURE - Fahrrad mit luftlosen Reifen, die für die Mond- und Mars-Rover-Missionen entwickelt wurden
Ferrari Press Agency
Tyres1
Ref 12749
18/03/2021
See Ferrari text
Pictures must credit: Smart Tire Company
Airless bike tyres using technology developed by US space agency NASA for its Mars and Moon rover missions, are coming to bicycles.The tyres use shape memory alloy technology.They will be used in a cutting edge, eco-friendly bicycle tire called METLTM. The tyres are made from advanced, lightweight alloy creating a tire that is elastic like rubber yet strong like titanium.They keep their shape without ever going flat. The tyres have the ability to undergo phase transitions at the molecular level under strain and can take thirty times the strain of ordinary steel. They are also eco-friendly, using long-lasting materials that reduce the use of rubber. The tyres are described as premier high-tech component for the modern cyclist with road, gravel, mountain and e-bike applications.The METLTM bike , which will use the technology, is to be built by US firm the Smart Tire Company.
OPS: The MELTM bike protype with NiTinol+ airless tyres
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141190_005
FEATURE - Fahrrad mit luftlosen Reifen, die für die Mond- und Mars-Rover-Missionen entwickelt wurden
Ferrari Press Agency
Tyres1
Ref 12749
18/03/2021
See Ferrari text
Pictures must credit: Smart Tire Company
Airless bike tyres using technology developed by US space agency NASA for its Mars and Moon rover missions, are coming to bicycles.The tyres use shape memory alloy technology.They will be used in a cutting edge, eco-friendly bicycle tire called METLTM. The tyres are made from advanced, lightweight alloy creating a tire that is elastic like rubber yet strong like titanium.They keep their shape without ever going flat. The tyres have the ability to undergo phase transitions at the molecular level under strain and can take thirty times the strain of ordinary steel. They are also eco-friendly, using long-lasting materials that reduce the use of rubber. The tyres are described as premier high-tech component for the modern cyclist with road, gravel, mountain and e-bike applications.The METLTM bike , which will use the technology, is to be built by US firm the Smart Tire Company.
OPS: The MELTM bike protype with NiTinol+ airless tyres
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141190_004
FEATURE - Fahrrad mit luftlosen Reifen, die für die Mond- und Mars-Rover-Missionen entwickelt wurden
Ferrari Press Agency
Tyres1
Ref 12749
18/03/2021
See Ferrari text
Pictures must credit: NASA
Airless bike tyres using technology developed by US space agency NASA for its Mars and Moon rover missions, are coming to bicycles.The tyres use shape memory alloy technology.They will be used in a cutting edge, eco-friendly bicycle tire called METLTM. The tyres are made from advanced, lightweight alloy creating a tire that is elastic like rubber yet strong like titanium.They keep their shape without ever going flat. The tyres have the ability to undergo phase transitions at the molecular level under strain and can take thirty times the strain of ordinary steel. They are also eco-friendly, using long-lasting materials that reduce the use of rubber. The tyres are described as premier high-tech component for the modern cyclist with road, gravel, mountain and e-bike applications.The METLTM bike , which will use the technology, is to be built by US firm the Smart Tire Company.
OPS: The NiTinol+ airless tyre under testing by NASA for Moon and Mars rover missions. The tyres is able to negotiate rocky obstacles and still retain its shape.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141190_003
FEATURE - Fahrrad mit luftlosen Reifen, die für die Mond- und Mars-Rover-Missionen entwickelt wurden
Ferrari Press Agency
Tyres1
Ref 12749
18/03/2021
See Ferrari text
Pictures must credit: NASA
Airless bike tyres using technology developed by US space agency NASA for its Mars and Moon rover missions, are coming to bicycles.The tyres use shape memory alloy technology.They will be used in a cutting edge, eco-friendly bicycle tire called METLTM. The tyres are made from advanced, lightweight alloy creating a tire that is elastic like rubber yet strong like titanium.They keep their shape without ever going flat. The tyres have the ability to undergo phase transitions at the molecular level under strain and can take thirty times the strain of ordinary steel. They are also eco-friendly, using long-lasting materials that reduce the use of rubber. The tyres are described as premier high-tech component for the modern cyclist with road, gravel, mountain and e-bike applications.The METLTM bike , which will use the technology, is to be built by US firm the Smart Tire Company.
OPS: The NiTinol+ airless tyre under testing by NASA for Moon and Mars rover missions. The tyres is able to negotiate rocky obstacles and still retain its shape.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141190_002
FEATURE - Fahrrad mit luftlosen Reifen, die für die Mond- und Mars-Rover-Missionen entwickelt wurden
Ferrari Press Agency
Tyres1
Ref 12749
18/03/2021
See Ferrari text
Pictures must credit: Smart Tire Company
Airless bike tyres using technology developed by US space agency NASA for its Mars and Moon rover missions, are coming to bicycles.The tyres use shape memory alloy technology.They will be used in a cutting edge, eco-friendly bicycle tire called METLTM. The tyres are made from advanced, lightweight alloy creating a tire that is elastic like rubber yet strong like titanium.They keep their shape without ever going flat. The tyres have the ability to undergo phase transitions at the molecular level under strain and can take thirty times the strain of ordinary steel. They are also eco-friendly, using long-lasting materials that reduce the use of rubber. The tyres are described as premier high-tech component for the modern cyclist with road, gravel, mountain and e-bike applications.The METLTM bike , which will use the technology, is to be built by US firm the Smart Tire Company.
OPS: The MELTM bike protype with NiTinol+ airless tyres
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10141190_001
FEATURE - Fahrrad mit luftlosen Reifen, die für die Mond- und Mars-Rover-Missionen entwickelt wurden
Ferrari Press Agency
Tyres1
Ref 12749
18/03/2021
See Ferrari text
Pictures must credit: Smart Tire Company
Airless bike tyres using technology developed by US space agency NASA for its Mars and Moon rover missions, are coming to bicycles.The tyres use shape memory alloy technology.They will be used in a cutting edge, eco-friendly bicycle tire called METLTM. The tyres are made from advanced, lightweight alloy creating a tire that is elastic like rubber yet strong like titanium.They keep their shape without ever going flat. The tyres have the ability to undergo phase transitions at the molecular level under strain and can take thirty times the strain of ordinary steel. They are also eco-friendly, using long-lasting materials that reduce the use of rubber. The tyres are described as premier high-tech component for the modern cyclist with road, gravel, mountain and e-bike applications.The METLTM bike , which will use the technology, is to be built by US firm the Smart Tire Company.
OPS: The MELTM bike protype with NiTinol+ airless tyres
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10136220_018
NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
DUK10136220_017
NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
DUK10136220_016
NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
DUK10136220_014
NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
DUK10136220_013
NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
DUK10136220_012
NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
DUK10136220_011
NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
DUK10136220_010
NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
DUK10136220_009
NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
DUK10136220_008
NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
DUK10136220_007
NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
DUK10136220_006
NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
DUK10136220_005
NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
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NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
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NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
DUK10136220_002
NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
DUK10136220_001
NEWS - Grossbrand im Hafen von Beirut
Beirut, Lebanon, 10 September 2020. A fire broke out at a warehouse in the capital's blast devatsted port early afternoon, spreading to a second warehouse and igniting several smaller blazes. Helicopters dumped sea water onto the flames as firefighters did their best to get the situation under control.
(c) Dukas -
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FEATURE - Pix of the Day: Bilder des Tages
Mandatory Credit: Photo by Mark Sutton/Sutton Images/REX/Shutterstock (9645075db)
Pirelli tyres during the Azerbaijan GP at Baku City Circuit on April 27, 2018 in Baku City Circuit, Azerbaijan.
2018 Azerbaijan GP - 28 Apr 2018
(c) Dukas -
DUK10091137_071
FEATURE - Pix of the Day: Bilder des Tages
Mandatory Credit: Photo by Mark Sutton/Sutton Images/REX/Shutterstock (9645075df)
Ferrari mechanics and Pirelli tyres during the Azerbaijan GP at Baku City Circuit on April 27, 2018 in Baku City Circuit, Azerbaijan.
2018 Azerbaijan GP - 28 Apr 2018
(c) Dukas -
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FEATURE - Best of: Bilder des Tages
Editorial Use Only
Mandatory Credit: Photo by Jon Super for FA/REX/Shutterstock (9360131am)
Liverpool players warm up
Liverpool Ladies FC v Arsenal FA WSL football match, Continental Tyres Cup, Select Security Stadium, Widnes, Cheshire, UK - 07 Feb 2018
(c) Dukas -
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FEATURE - Best of: Die Bilder des Tages
Mandatory Credit: Photo by Phil Mingo/PPAUK/REX/Shutterstock (9353176ba)
Race winner, Cloudy Bob ridden by Aidan Coleman (R) jumps the last with Private Malone ridden by Gavin Sheehan (L). - RACE 5 - 3:25 Taunton 4 Feb 2018 - Bathwick Tyres Handicap Chase (Class 3) at Taunton Racecourse, Taunton, Somerset, England
Taunton Races, Taunton, UK - 4 Feb 2018
(c) Dukas -
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FEATURE - Best of: Bilder des Tages
Mandatory Credit: Photo by WittWooPhoto/REX/Shutterstock (9325119l)
Drone shot of a stack of snow covered vehicle tyres.
Seasonal weather, Cumbria, UK - 18 Jan 2018
(c) Dukas -
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FEATURE - Pix of the Day - Bilder des Tages
November 9, 2017 - Sao Paulo, Sao Paulo, Brazil - Preparation day for the Formula One Grand Prix of Brazil at Interlagos circuit, in Sao Paulo, Brazil. The grand prix will be celebrated next Sunday, November 12 (FOTO: DUKAS/ZUMA)
(c) Dukas -
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PEOPLE - Texas: Formel 1 Zirkus in Austin
Mandatory Credit: Photo by Hone/LAT/REX/Shutterstock (9159436l)
Pirelli tyres with pink markings in support of raising awareness of breast cancer.
Formula One 1 United States Grand Prix, Circuit of the Americas, Austin, Texas, USA. 19 Oct 2017.
(c) Dukas -
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PEOPLE - Texas: Formel 1 Zirkus in Austin
Mandatory Credit: Photo by Hone/LAT/REX/Shutterstock (9159436g)
Pirelli tyres with pink markings in support of raising awareness of breast cancer.
Formula One 1 United States Grand Prix, Circuit of the Americas, Austin, Texas, USA. 19 Oct 2017.
(c) Dukas -
DUKAS_27834270_REX
Protest against municipal demarcation plans, Sasolburg, South Africa - 21 Jan 2013
Mandatory Credit: Photo by Gallo Images / Rex Features (2093336a)
Tyres set on fire
Protest against municipal demarcation plans, Sasolburg, South Africa - 21 Jan 2013
Protest broke out as a result of the announcement of the intention to integrate municipal systems from Sasol to Parys
(FOTO:DUKAS/REX)
DUKAS/REX -
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Gaza Conflict - 16 Nov 2012
Mandatory Credit: Photo by APAimages / Rex Features (1975205g)
A Palestinian stone-thrower walks past smoke from burning tyres during clashes with Israeli security forces against Israel's military operation in Gaza, at Qalandia checkpoint near the West Bank city of Ramallah
Gaza Conflict - 16 Nov 2012
Palestinian militants nearly hit Jerusalem with a rocket for the first time in decades on Friday and fired at Tel Aviv for a second day, in a stinging challenge to Israel's Gaza offensive after an Egyptian bid to broker a truce.
(FOTO:DUKAS/REX) -
DUKAS_26830782_REX
Gaza Conflict - 16 Nov 2012
Mandatory Credit: Photo by APAimages / Rex Features (1975205f)
A Palestinian stone-thrower walks past smoke from burning tyres during clashes with Israeli security forces against Israel's military operation in Gaza, at Qalandia checkpoint near the West Bank city of Ramallah
Gaza Conflict - 16 Nov 2012
Palestinian militants nearly hit Jerusalem with a rocket for the first time in decades on Friday and fired at Tel Aviv for a second day, in a stinging challenge to Israel's Gaza offensive after an Egyptian bid to broker a truce.
(FOTO:DUKAS/REX) -
