Taper corrosion in Total Hip Arthroplasty has surfaced as a clinically relevant problem and has recently also been reported for metal heads against polyethylene. Low neck stiffness is a critical contributing factor. Catastrophic taper failures have been reported for one particular stem design with a small V-40 taper made from a less stiff titanium-alloy. The purpose of this study was to identify factors involved in the failure process. 31 revised CoCr heads ranging from 32 to 44m diameter combined with TMZF-Titanium alloy stem with a V-40 taper (Accolade I) were analysed. Stems were only available for catastrophic failure cases with dis-association (n=8) or taper fracture (n=1). Clinical data were limited to time-in-situ, patient gender and age. Head material loss increased with time in situ (r²=0.49, p<0.001). Longer heads and material loss exceeding 15mm³ showed bottoming out and consecutive catastrophic stem taper failure. Heads with failed stem tapers were all 36mm diameter. The head starts rotating on the stem taper after bottoming out, causing major abrasive wear, ultimately resulting in catastrophic failure; it is surprising that these catastrophic cases did not exhibit clinical symptoms due to raised Co and Cr metal ions, which must have resulted from the large amount of CoCr lost from the female head taper. This would have attracted medical attention and prevented catastrophic failure by taper dis-association. Control exams of patients treated with the respective stem type in combination with large CoCr heads should include metal ion determination in blood or serum, even if no clinical symptoms are present, in order to detect taper corrosion before catastrophic failure occurs.