Elliot Non-Iron Trouser in Black Cotton Blend

Details

Product code: 62581
1 reviews
$159.00 Now $94.95

Variations

  • Waist
  • Size
Availability:
Select Size(s) for Availability

Add to cart options

Product Actions

Additional Information

Product Details

A classic black hue and attention to detail combine to make the Elliot trousers a versatile addition to summer collections. They are fashioned from stretch cotton for a perfect fit and comfortable feel. The non-iron fabric means that they will remain sleek throughout long days at the office or while travelling.

The sophisticated aesthetic is reinforced by an ironed-in front crease and a French bearer fastening. A V-seam at the back is a nod towards Italian tailoring techniques. 

Team with a fitted blazer and statement floral shirt for restaurant dinners with friends. Wear them with a crisp white shirt and refined leather accessories for evenings out with clients.

  • 98% Cotton, 2% Elastane
  • Slim fit
  • Single back welt pocket
  • Single-button fastening
  • Lining: 100% Polyester
  • Machine washable at 30 degrees

Deliveries

Delivery Options

Click & Collect (orders $150 or less) - Collect from a T.M.Lewin store in 9-12 working days - $10.00

Click & Collect (orders over $150) - Collect from a T.M.Lewin store in 9-12 working days - FREE

Standard (orders $150 or less) - Delivery in 9-12 working days - $10.00

Standard (orders over $150) - Delivery in 9-12 working days - FREE

International - from $15

Returns

AUS Returns

We hope that you’ll be pleased with your choice of TM Lewin products but if you’re not then please note that if you return your products to us from Australia it will be at your own risk and cost. Please use airmail only. If the goods are faulty we will be happy to refund the full return costs once we have received and inspected them.

Please note that hemmed trousers cannot be returned for a refund or exchange unless faulty.

Ratings & Reviews
Average Ratings
2 / 5
based on 1 reviews
1 reviews
May 20, 2019
Returned due to size and thickness of material