Flexible　broadband　terahertz　absorbers　(FBTAs)　have　attracted　great　attention　in　recent　years　due　to　their　promising　potential　for　nonplanar　objects,　however,　these　applications　are　limited　by　rigorous　requirements　for　being　insensitive　to　arbitrary　incident　angles.　Herein,　we　have　proposed　an　ameliorated　angular　insensitivity　method　by　integrating　the　appropriate　amount　and　type　of　building　absorbers　into　a　hybrid　flexible　array　according　to　spatial　distributions　and　surface　curvatures.　Based　on　the　integrable　strategy,　we　have　successfully　designed　three　types　of　FBTAs　with　diverse　robustness　and　insensitivity　for　wide　incident　angles.　The　radar　cross　section　(RCS)　reductions　for　these　FBTAs　are　theoretically　investigated　to　further　validate　their　absorption　performance.　Additionally,　the　equivalent　circuit　theory　is　employed　to　reveal　the　underlying　physical　mechanism　of　the　bandwidth　expansion.　It　can　be　deduced　that　our　proposed　strategy　would　be　beneficial　to　broaden　the　bandwidth　and　enhance　the　angular　independence　of　flexible　absorbers　and　provide　several　promising　prospects　in　the　development　of　emerging　functional　THz　technologies.　©　2022　Elsevier　B.V.