McLaren Artura breaks cover as a high-performance hybrid supercar
McLaren Artura breaks cover as a high-performance hybrid supercar
Underpinned by super-lightweight engineering, the all-new Artura features a distinctive design, enhanced performance, and advanced innovations coupled with an electrified powertrain.
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UPDATED: February 17, 2021 18:34 IST
The McLaren Artura is the first model to have the new McLaren Carbon Lightweight Architecture (MCLA) at its core.
HIGHLIGHTS
The McLaren Artura is the first model to have the new McLaren Carbon Lightweight Architecture (MCLA) at its core.
The all-new Artura features a distinctive design, enhanced performance, and advanced innovations coupled with electrified powertrain.
The McLaren Artura can sprint from standstill to 100kmph in under 3 seconds, making it the fastest hybrid supercar ever produced by the British supercar makers.
The plug-in hybrid Artura will sprint from rest to 60mph in 3 seconds. But it will also return over 50mpg, emit less than 130g/km of CO2 and do 19 miles on battery power.
McLaren promised something extravagantly impressive for its first series-production High-Performance Hybrid supercar, and the new 2022 McLaren Artura certainly
Next-generation supercar blends thrilling performance, driving dynamics and engagement with pure EV driving capability
First model built on all-new McLaren Carbon Lightweight Architecture (MCLA) contributing to best-in-class kerb weight (DIN) of just 1,498kg
Revolutionary twin-turbocharged 3.0-litre V6 petrol engine combined with E-motor and energy-dense battery pack, produces 680PS (671bhp) and 720 Nm (530lb ft)
Improved customer offering with standard three-year service plan, five-year vehicle warranty, six-year battery warranty, 10-year body warranty
McLaren Automotive, the British creator of luxury, high-performance supercars, has revealed the long-anticipated McLaren Artura today, marking the beginning of both a new chapter for the pioneering luxury supercar company and a new era in supercar technology and performance.