: Her designs prioritize comfort and weight; she aims for large statement pieces to remain under 5 grams per earring for all-day wear.
: She applies concepts from the Atlas of Fullerenes (used in molecular modeling) to produce beaded 3D carbon molecules.
: Her instructional designs, such as the Angelina Necklace , are popular in DIY communities like YoolaISK. She also published her first tutorial in Bead and Jewellery Magazine #133 .
: She frequently participates in industry challenges, such as the "Everlasting Kiss" theme and various beading contests, sharing her process and designs on platforms like Facebook .
Croft transitioned to beadwork after leaving the corporate world, bringing a technical precision to her craft.
Angelina Croft is a prominent known for blending her background in mathematics and aerospace engineering with intricate, scientific-inspired bead weaving. She is particularly recognized for her innovative "Marigold Molecule" designs, which utilize 3D molecular modeling techniques to create lightweight, architectural jewelry. Artistic Background and Style
: Her designs prioritize comfort and weight; she aims for large statement pieces to remain under 5 grams per earring for all-day wear.
: She applies concepts from the Atlas of Fullerenes (used in molecular modeling) to produce beaded 3D carbon molecules. angelina croft
: Her instructional designs, such as the Angelina Necklace , are popular in DIY communities like YoolaISK. She also published her first tutorial in Bead and Jewellery Magazine #133 . : Her designs prioritize comfort and weight; she
: She frequently participates in industry challenges, such as the "Everlasting Kiss" theme and various beading contests, sharing her process and designs on platforms like Facebook . She also published her first tutorial in Bead
Croft transitioned to beadwork after leaving the corporate world, bringing a technical precision to her craft.
Angelina Croft is a prominent known for blending her background in mathematics and aerospace engineering with intricate, scientific-inspired bead weaving. She is particularly recognized for her innovative "Marigold Molecule" designs, which utilize 3D molecular modeling techniques to create lightweight, architectural jewelry. Artistic Background and Style