Opinions don't matter when you can measure.
I implemented this on PostgreSQL using both natural keys and surrogates. I used 300,000 total products, 180 ingredients, and populated two "product ingredient" tables with 3 to 17 ingredients per product, for 100,000 randomly selected products (1053462 rows).
Selecting all the ingredients for a single product using natural keys returned in 0.067 ms. Using surrogates, 0.199ms.
Returning all the non-id columns for a single product using natural keys returned in 0.145 ms. Using surrogates, 0.222 ms
So natural keys were about 2 to 3 times faster on this data set.
Natural keys don't require any joins to return this data. Surrogate keys require two joins.
The actual performance difference depends on the width of your tables, number of rows, page size, and length of names, and things like that. There will be a point where surrogate keys start outperforming natural keys, but few people try to measure that.
When I was designing the database for my employer's operational database, I built a testbed with tables designed around natural keys and with tables designed around id numbers. Both those schemas have more than 13 million rows of computer-generated sample data. In a few cases, queries on the id number schema outperformed the natural key schema by 50%. (So a complex query that took 20 seconds with id numbers took 30 seconds with natural keys.) But 80% of the test queries had faster SELECT performance against the natural key schema. And sometimes it was staggeringly faster--a difference of 30 to 1.
We expect natural keys to outperform surrogates in our database for years to come. (Unless we move certain tables over to an SSD, in which case natural keys will probably outperform surrogates forever.)